ClassImp(AliAnalysisTaskV0ForRAA)
//________________________________________________________________________
- AliAnalysisTaskV0ForRAA::AliAnalysisTaskV0ForRAA(const char *name)
- :AliAnalysisTaskSE(name),
- fESD(0),
- fMCev(0),
- //other objects
- fESDpid(0),
- fESDTrackCuts(0),
- fESDTrackCutsCharged(0),
- fOutputContainer(0),
- //event histos
- fHistITSLayerHits(0),
- fHistOneHitWithSDD(0),
- fHistNEvents(0),
- fHistPrimVtxZESDVSNContributors(0),
- fHistPrimVtxZESDTPCVSNContributors(0),
- fHistPrimVtxZESDSPDVSNContributors(0),
- fHistPrimVtxZESDVSNContributorsMC(0),
- fHistPrimVtxZESDTPCVSNContributorsMC(0),
- fHistPrimVtxZESDSPDVSNContributorsMC(0),
- fHistPrimVtxZESD(0),
- fHistPrimVtxZESDTPC(0),
- fHistPrimVtxZESDSPD(0),
- fHistESDVertexZ(0),
- fHistMCVertexZ(0),
- fHistMuliplicity(0),
- fHistMuliplicityRaw(0),
- fHistCentBinRaw(0),
- fHistCentBin(0),
- fHistMultiplicityPrimary(0),
- fHistNPrim(0),
- //MC pdg code histos
- fHistPiPiPDGCode(0),
- fHistPiPPDGCode(0),
- fHistPiAPPDGCode(0),
- //cosine of pointing angle of Xi vs pt histos
- fHistPiPCosPointAngXiVsPt(0),
- fHistPiAPCosPointAngXiVsPt(0),
- // fHistUserPtShift(0),
- //selection booleans and values
- fMCMode(0),
- fMCTruthMode(0),
- fSelectInjected(0),
- fUseCentrality(0),
- fUseCentralityBin(0),
- fUseCentralityRange(0),
- fAnapp(0),
- fSelSDD(0),
- fOntheFly(0),
- fVertexZCut(0),
- fVtxStatus(0),
- fUsePID(0),
- fNSigma(0),
- fPPIDcut(0),
- fMoreNclsThanRows(0),
- fMoreNclsThanFindable(0),
- fChi2PerClusterITS(0),
- fRapCutV0(0),
- fRap(0),
- fEtaCutMCDaughters(0),
- fEtaCutMCDaughtersVal(0),
- fMinPt(0),
- fAlfaCut(0),
- fQtCut(0),
- fArmCutK0(0),
- fArmCutL(0),
- fDCAToVertexK0(0),
- fDCAToVertexL(0),
- fDCAXK(0),
- fDCAYK(0),
- fDCAXL(0),
- fDCAYL(0),
- fDCAZ(0),
- fDCADaughtersL(0),
- fDCADaughtersAL(0),
- fDCADaughtersK0(0),
- fDCADaughtersToVtxLarge(0),
- fDCADaughtersToVtxSmall(0),
- fDecayRadXYMin(0),
- fDecayRadXYMax(0),
- fCosPointAngL(0),
- fCosPointAngK(0),
- fCPAPtCutK0(0),
- fCPAPtCutL(0),
- fOpengAngleDaughters(0),
- fOpAngPtCut(0),
- fDecayLengthMax(0),
- fDecayLengthMin(0),
- fCtauK0s(0),
- fCtauL(0),
- fCtauPtCutK0(0),
- fCtauPtCutL(0),
- fChiCutKf(0) // fShift(0),
- // fDeltaInvP(0)
+AliAnalysisTaskV0ForRAA::AliAnalysisTaskV0ForRAA(const char *name)
+:AliAnalysisTaskSE(name),
+ fESD(0),
+ fMCev(0),
+//other objects
+ fESDpid(0),
+ fESDTrackCuts(0),
+ fESDTrackCutsCharged(0),
+ fOutputContainer(0),
+//event histos
+ fHistITSLayerHits(0),
+ fHistOneHitWithSDD(0),
+ fHistNEvents(0),
+ fHistPrimVtxZESDVSNContributors(0),
+ fHistPrimVtxZESDTPCVSNContributors(0),
+ fHistPrimVtxZESDSPDVSNContributors(0),
+ fHistPrimVtxZESDVSNContributorsMC(0),
+ fHistPrimVtxZESDTPCVSNContributorsMC(0),
+ fHistPrimVtxZESDSPDVSNContributorsMC(0),
+ fHistPrimVtxZESD(0),
+ fHistPrimVtxZESDTPC(0),
+ fHistPrimVtxZESDSPD(0),
+ fHistESDVertexZ(0),
+ fHistMCVertexZ(0),
+ fHistMuliplicity(0),
+ fHistMuliplicityRaw(0),
+ fHistCentBinRaw(0),
+ fHistCentBin(0),
+ fHistMultiplicityPrimary(0),
+ fHistNPrim(0),
+//MC pdg code histos
+ fHistPiPiPDGCode(0),
+ fHistPiPPDGCode(0),
+ fHistPiAPPDGCode(0),
+//cosine of pointing angle of Xi vs pt histos
+ fHistPiPCosPointAngXiVsPt(0),
+ fHistPiAPCosPointAngXiVsPt(0),
+// fHistUserPtShift(0),
+//selection booleans and values
+ fMCMode(0),
+ fMCTruthMode(0),
+ fSelectInjected(0),
+ fUseCentrality(0),
+ fUseCentralityBin(0),
+ fUseCentralityRange(0),
+ fAnapp(0),
+ fSelSDD(0),
+ fOntheFly(0),
+ fVertexZCut(0),
+ fVtxStatus(0),
+ fUsePID(0),
+ fNSigma(0),
+ fPPIDcut(0),
+ fMoreNclsThanRows(0),
+ fMoreNclsThanFindable(0),
+ fChi2PerClusterITS(0),
+ fRapCutV0(0),
+ fRap(0),
+ fEtaCutMCDaughters(0),
+ fEtaCutMCDaughtersVal(0),
+ fMinPt(0),
+ fAlfaCut(0),
+ fQtCut(0),
+ fQtCutPtLow(0),
+ fArmCutK0(0),
+ fArmCutL(0),
+ fDCAToVertexK0(0),
+ fDCAToVertexL(0),
+ fDCAXK(0),
+ fDCAYK(0),
+ fDCAXL(0),
+ fDCAYL(0),
+ fDCAZ(0),
+ fDCADaughtersL(0),
+ fDCADaughtersAL(0),
+ fDCADaughtersK0(0),
+ fDCADaughtersToVtxLarge(0),
+ fDCADaughtersToVtxSmall(0),
+ fDecayRadXYMin(0),
+ fDecayRadXYMax(0),
+ fCosPointAngL(0),
+ fCosPointAngK(0),
+ fCPAPtCutK0(0),
+ fCPAPtCutL(0),
+ fOpengAngleDaughters(0),
+ fOpAngPtCut(0),
+ fDecayLengthMax(0),
+ fDecayLengthMin(0),
+ fCtauK0s(0),
+ fCtauL(0),
+ fCtauPtCutK0(0),
+ fCtauPtCutL(0),
+ fChiCutKf(0) // fShift(0),
+ // fDeltaInvP(0)
{ // Constructor.
- DefineOutput(1,TList::Class());
+ DefineOutput(1,TList::Class());
- // define defaults for globals
- /*
- fShift = kFALSE; // shift in charge/pt yes/no
- fDeltaInvP = 0.00; // shift value
- */
+ // define defaults for globals
+ /*
+ fShift = kFALSE; // shift in charge/pt yes/no
+ fDeltaInvP = 0.00; // shift value
+ */
- fMCMode = kFALSE;
- fMCTruthMode = kFALSE;
+ fMCMode = kFALSE;
+ fMCTruthMode = kFALSE;
- fUseCentrality = 0;
- fUseCentralityBin = 0;
- fUseCentralityRange =0;
+ fUseCentrality = 0;
+ fUseCentralityBin = 0;
+ fUseCentralityRange =0;
- fAnapp = kFALSE;
- fSelSDD = kFALSE;
+ fAnapp = kFALSE;
+ fSelSDD = kFALSE;
- fSelectInjected = kFALSE;
+ fSelectInjected = kFALSE;
- fVertexZCut = 100000.0;
- fVtxStatus = kFALSE;
+ fVertexZCut = 100000.0;
+ fVtxStatus = kFALSE;
- fOntheFly = kTRUE;
-
- //----- define defaults for V0 and track cuts ----//
- fUsePID = kFALSE;
- fMoreNclsThanRows = kFALSE;
- fMoreNclsThanFindable = kFALSE;
- fChi2PerClusterITS = 100000.0;
- fNSigma = 100000.0;
- fPPIDcut = 100.0;
-
- fRapCutV0=kFALSE;
- fRap=1000.0;
- fRap=1000.0;
-
- fAlfaCut= -100.0;
- fQtCut = 100.0;
- fArmCutK0=kFALSE;
- fArmCutL=kFALSE;
-
- fEtaCutMCDaughters = kFALSE;
- fEtaCutMCDaughtersVal =50.0;
-
- fMinPt= -1.0;
-
- fDCAToVertexK0 = 10000.0;
- fDCAToVertexL = 10000.0;
- fDCAXK=10000.0;
- fDCAYK=10000.0;
- fDCAXL=10000.0;
- fDCAYL=10000.0;
- fDCAZ=10000.0;
+ fOntheFly = kTRUE;
+
+ //----- define defaults for V0 and track cuts ----//
+ fUsePID = kFALSE;
+ fMoreNclsThanRows = kFALSE;
+ fMoreNclsThanFindable = kFALSE;
+ fChi2PerClusterITS = 100000.0;
+ fNSigma = 100000.0;
+ fPPIDcut = 100.0;
+
+ fRapCutV0=kFALSE;
+ fRap=1000.0;
+ fRap=1000.0;
+
+ fAlfaCut= -100.0;
+ fQtCut = 100.0;
+ fQtCutPtLow = -1.0;
+ fArmCutK0=kFALSE;
+ fArmCutL=kFALSE;
+
+ fEtaCutMCDaughters = kFALSE;
+ fEtaCutMCDaughtersVal = 50.0;
+
+ fMinPt= -1.0;
+
+ fDCAToVertexK0 = 10000.0;
+ fDCAToVertexL = 10000.0;
+ fDCAXK=10000.0;
+ fDCAYK=10000.0;
+ fDCAXL=10000.0;
+ fDCAYL=10000.0;
+ fDCAZ=10000.0;
- fDCADaughtersL=10000.0;
- fDCADaughtersAL=10000.0;
- fDCADaughtersK0=10000.0;
+ fDCADaughtersL=10000.0;
+ fDCADaughtersAL=10000.0;
+ fDCADaughtersK0=10000.0;
- fDCADaughtersToVtxLarge=-1.0;
- fDCADaughtersToVtxSmall=-1.0;
+ fDCADaughtersToVtxLarge=-1.0;
+ fDCADaughtersToVtxSmall=-1.0;
- fDecayRadXYMin=-1.0;
- fDecayRadXYMax=1000000.0;
- fDecayLengthMax=100000.0;
- fDecayLengthMin=-1.0;
+ fDecayRadXYMin=-1.0;
+ fDecayRadXYMax=1000000.0;
+ fDecayLengthMax=100000.0;
+ fDecayLengthMin=-1.0;
- fCosPointAngL=-1.0;
- fCosPointAngK=-1.0;
- fCPAPtCutK0 = 1000.0;
- fCPAPtCutL =1000.0;
- fOpengAngleDaughters = -1.0;
- fOpAngPtCut = -1.0;
+ fCosPointAngL=-1.0;
+ fCosPointAngK=-1.0;
+ fCPAPtCutK0 = 1000.0;
+ fCPAPtCutL =1000.0;
+ fOpengAngleDaughters = -1.0;
+ fOpAngPtCut = -1.0;
- fCtauK0s=10000.0;
- fCtauL=10000.0;
- fCtauPtCutK0=1000.0;
- fCtauPtCutL=10000.0;
+ fCtauK0s=10000.0;
+ fCtauL=10000.0;
+ fCtauPtCutK0=1000.0;
+ fCtauPtCutL=10000.0;
- fChiCutKf=1000000.0;
+ fChiCutKf=1000000.0;
- //---- histograms ----//
- for(Int_t j=0;j<2;j++){
- fHistArmenteros[j]=NULL;
- fHistV0RadiusZ[j] =NULL;
- fHistV0RadiusZVSPt[j] =NULL;
- fHistV0RadiusXY[j] =NULL;
- fHistV0RadiusXYVSY[j] =NULL;
-
- //K0
- fHistPiPiMass[j]=NULL;
- fHistPiPiMassVSPt[j]=NULL;
- fHistPiPiMassVSPtMCTruth[j]=NULL;
- // fHistPiPiMassVSAlpha[j]=NULL;
- fHistPiPiRadiusXY[j]=NULL;
- fHistPiPiCosPointAng[j]=NULL;
- fHistPiPiDecayLengthVsPt[j]=NULL;
- fHistPiPiDecayLengthVsMass[j]=NULL;
- fHistPiPiDCADaughterPosToPrimVtxVSMass[j]=NULL;
- // fHistPiPiMassVSPtK0L[j]=NULL;
- fHistPiPiDCADaughters[j]=NULL;
- fHistPiPiPtDaughters[j]=NULL;
- fHistPiPiPtVSY[j]=NULL;
- fHistPiPiDCAVSMass[j]=NULL;
- fHistPiPiMonitorCuts[j] =NULL;
-
-
- //Lambda
- fHistPiPMass[j]=NULL;
- fHistPiPMassVSPt[j]=NULL;
- fHistPiPMassVSPtMCTruth[j]=NULL;
- fHistPiPRadiusXY[j]=NULL;
- fHistPiPCosPointAng[j]=NULL;
- fHistPiPDecayLengthVsPt[j]=NULL;
- fHistPiPDecayLengthVsMass[j]=NULL;
- fHistPiPDCADaughterPosToPrimVtxVSMass[j]=NULL;
- fHistPiPMassVSPtSecSigma[j]=NULL;
- fHistPiPMassVSPtSecXi[j]=NULL;
- fHistPiPMassVSYSecXi[j]=NULL;
- fHistPiPXi0PtVSLambdaPt[j]=NULL;
- fHistPiPXiMinusPtVSLambdaPt[j]=NULL;
- fHistPiPDCADaughters[j]=NULL;
- fHistPiPPtDaughters[j]=NULL;
- fHistPiPPtVSY[j]=NULL;
- fHistPiPDCAVSMass[j]=NULL;
- fHistPiPMonitorCuts[j] =NULL;
-
-
- //ALambda
- fHistPiAPMass[j]=NULL;
- fHistPiAPMassVSPt[j]=NULL;
- fHistPiAPMassVSPtMCTruth[j]=NULL;
- fHistPiAPRadiusXY[j]=NULL;
- fHistPiAPCosPointAng[j]=NULL;
- fHistPiAPDecayLengthVsPt[j]=NULL;
- fHistPiAPDecayLengthVsMass[j]=NULL;
- fHistPiAPDCADaughterPosToPrimVtxVSMass[j]=NULL;
- fHistPiAPMassVSPtSecSigma[j]=NULL;
- fHistPiAPMassVSPtSecXi[j]=NULL;
- fHistPiAPMassVSYSecXi[j]=NULL;
- fHistPiAPXi0PtVSLambdaPt[j]=NULL;
- fHistPiAPXiMinusPtVSLambdaPt[j]=NULL;
- fHistPiAPDCADaughters[j]=NULL;
- fHistPiAPPtDaughters[j]=NULL;
- fHistPiAPPtVSY[j]=NULL;
- fHistPiAPDCAVSMass[j]=NULL;
- fHistPiAPMonitorCuts[j] =NULL;
-
- //other
- fHistDedxSecProt[j]=NULL;
- fHistDedxSecAProt[j]=NULL;
- fHistDedxSecPiMinus[j]=NULL;
- fHistDedxSecPiPlus[j]=NULL;
- fHistNclsITSPosK0[j]=NULL;
- fHistNclsITSNegK0[j]=NULL;
- fHistNclsTPCPosK0[j]=NULL;
- fHistNclsTPCNegK0[j]=NULL;
- fHistChi2PerNclsITSPosK0[j]=NULL;
- fHistChi2PerNclsITSNegK0[j]=NULL;
- fHistNclsITSPosL[j]=NULL;
- fHistNclsITSNegL[j]=NULL;
- fHistNclsTPCPosL[j]=NULL;
- fHistNclsTPCNegL[j]=NULL;
- fHistChi2PerNclsITSPosL[j]=NULL;
- fHistChi2PerNclsITSNegL[j]=NULL;
- fHistNclsITSPos[j]=NULL;
- fHistNclsITSNeg[j]=NULL;
- fHistNclsTPCPos[j]=NULL;
- fHistNclsTPCNeg[j]=NULL;
- fHistChi2PerNclsITSPos[j]=NULL;
- fHistChi2PerNclsITSNeg[j]=NULL;
- fHistNclsITS[j]=NULL;
- fHistNclsTPC[j]=NULL;
- fHistNCRowsTPCPos[j]=NULL;
- fHistNCRowsTPCNeg[j]=NULL;
-
- fHistPiPiEtaDMC[j] = NULL;
- fHistPiPiEtaDReco[j] = NULL;
- fHistPiPEtaDMC[j] = NULL;
- fHistPiPEtaDReco[j] = NULL;
- }
+ //---- histograms ----//
+ for(Int_t j=0;j<2;j++){
+ fHistArmenteros[j]=NULL;
+ fHistV0RadiusZ[j] =NULL;
+ fHistV0RadiusZVSPt[j] =NULL;
+ fHistV0RadiusXY[j] =NULL;
+ fHistV0RadiusXYVSY[j] =NULL;
+
+ //K0
+ fHistPiPiMass[j]=NULL;
+ fHistPiPiMassVSPt[j]=NULL;
+ fHistPiPiMassVSPtMCTruth[j]=NULL;
+ // fHistPiPiMassVSAlpha[j]=NULL;
+ fHistPiPiRadiusXY[j]=NULL;
+ fHistPiPiCosPointAng[j]=NULL;
+ fHistPiPiDecayLengthVsPt[j]=NULL;
+ fHistPiPiDecayLengthVsMass[j]=NULL;
+ fHistPiPiDCADaughterPosToPrimVtxVSMass[j]=NULL;
+ // fHistPiPiMassVSPtK0L[j]=NULL;
+ fHistPiPiDCADaughters[j]=NULL;
+ fHistPiPiPtDaughters[j]=NULL;
+ fHistPiPiPtVSY[j]=NULL;
+ fHistPiPiDCAVSMass[j]=NULL;
+ fHistPiPiMonitorCuts[j] =NULL;
+
+
+ //Lambda
+ fHistPiPMass[j]=NULL;
+ fHistPiPMassVSPt[j]=NULL;
+ fHistPiPMassVSPtMCTruth[j]=NULL;
+ fHistPiPRadiusXY[j]=NULL;
+ fHistPiPCosPointAng[j]=NULL;
+ fHistPiPDecayLengthVsPt[j]=NULL;
+ fHistPiPDecayLengthVsMass[j]=NULL;
+ fHistPiPDCADaughterPosToPrimVtxVSMass[j]=NULL;
+ fHistPiPMassVSPtSecSigma[j]=NULL;
+ fHistPiPMassVSPtSecXi[j]=NULL;
+ fHistPiPMassVSYSecXi[j]=NULL;
+ fHistPiPXi0PtVSLambdaPt[j]=NULL;
+ fHistPiPXiMinusPtVSLambdaPt[j]=NULL;
+ fHistPiPDCADaughters[j]=NULL;
+ fHistPiPPtDaughters[j]=NULL;
+ fHistPiPPtVSY[j]=NULL;
+ fHistPiPDCAVSMass[j]=NULL;
+ fHistPiPMonitorCuts[j] =NULL;
+
+
+ //ALambda
+ fHistPiAPMass[j]=NULL;
+ fHistPiAPMassVSPt[j]=NULL;
+ fHistPiAPMassVSPtMCTruth[j]=NULL;
+ fHistPiAPRadiusXY[j]=NULL;
+ fHistPiAPCosPointAng[j]=NULL;
+ fHistPiAPDecayLengthVsPt[j]=NULL;
+ fHistPiAPDecayLengthVsMass[j]=NULL;
+ fHistPiAPDCADaughterPosToPrimVtxVSMass[j]=NULL;
+ fHistPiAPMassVSPtSecSigma[j]=NULL;
+ fHistPiAPMassVSPtSecXi[j]=NULL;
+ fHistPiAPMassVSYSecXi[j]=NULL;
+ fHistPiAPXi0PtVSLambdaPt[j]=NULL;
+ fHistPiAPXiMinusPtVSLambdaPt[j]=NULL;
+ fHistPiAPDCADaughters[j]=NULL;
+ fHistPiAPPtDaughters[j]=NULL;
+ fHistPiAPPtVSY[j]=NULL;
+ fHistPiAPDCAVSMass[j]=NULL;
+ fHistPiAPMonitorCuts[j] =NULL;
+
+ //other
+ fHistDedxSecProt[j]=NULL;
+ fHistDedxSecAProt[j]=NULL;
+ fHistDedxSecPiMinus[j]=NULL;
+ fHistDedxSecPiPlus[j]=NULL;
+ fHistNclsITSPosK0[j]=NULL;
+ fHistNclsITSNegK0[j]=NULL;
+ fHistNclsTPCPosK0[j]=NULL;
+ fHistNclsTPCNegK0[j]=NULL;
+ fHistChi2PerNclsITSPosK0[j]=NULL;
+ fHistChi2PerNclsITSNegK0[j]=NULL;
+ fHistNclsITSPosL[j]=NULL;
+ fHistNclsITSNegL[j]=NULL;
+ fHistNclsTPCPosL[j]=NULL;
+ fHistNclsTPCNegL[j]=NULL;
+ fHistChi2PerNclsITSPosL[j]=NULL;
+ fHistChi2PerNclsITSNegL[j]=NULL;
+ fHistNclsITSPos[j]=NULL;
+ fHistNclsITSNeg[j]=NULL;
+ fHistNclsTPCPos[j]=NULL;
+ fHistNclsTPCNeg[j]=NULL;
+ fHistChi2PerNclsITSPos[j]=NULL;
+ fHistChi2PerNclsITSNeg[j]=NULL;
+ fHistNclsITS[j]=NULL;
+ fHistNclsTPC[j]=NULL;
+ fHistNCRowsTPCPos[j]=NULL;
+ fHistNCRowsTPCNeg[j]=NULL;
+
+ fHistPiPiEtaDMC[j] = NULL;
+ fHistPiPiEtaDReco[j] = NULL;
+ fHistPiPEtaDMC[j] = NULL;
+ fHistPiPEtaDReco[j] = NULL;
+ }
}
//_____________________________________________________
AliAnalysisTaskV0ForRAA::~AliAnalysisTaskV0ForRAA()
{
- //---- Remove all pointers ----//
- if(fOutputContainer) delete fOutputContainer;fOutputContainer=0;
- if(fESDTrackCuts) delete fESDTrackCuts;fESDTrackCuts=0;
- if(fESDTrackCutsCharged) delete fESDTrackCutsCharged;fESDTrackCutsCharged=0;
+ //---- Remove all pointers ----//
+ if(fOutputContainer) delete fOutputContainer;fOutputContainer=0;
+ if(fESDTrackCuts) delete fESDTrackCuts;fESDTrackCuts=0;
+ if(fESDTrackCutsCharged) delete fESDTrackCutsCharged;fESDTrackCutsCharged=0;
- //histograms
- if(fHistITSLayerHits) delete fHistITSLayerHits;fHistITSLayerHits=0;
- if(fHistOneHitWithSDD) delete fHistOneHitWithSDD;fHistOneHitWithSDD=0;
- if(fHistNEvents) delete fHistNEvents; fHistNEvents=0;
- if(fHistNPrim) delete fHistNPrim; fHistNPrim=0;
- if(fHistMuliplicity) delete fHistMuliplicity;fHistMuliplicity =0;
- if(fHistMuliplicityRaw) delete fHistMuliplicityRaw;fHistMuliplicityRaw =0;
- if(fHistCentBinRaw) delete fHistCentBinRaw; fHistCentBinRaw=0;
- if(fHistCentBin) delete fHistCentBin; fHistCentBin=0;
- if(fHistMultiplicityPrimary) delete fHistMultiplicityPrimary;fHistMultiplicityPrimary=0;
+ //histograms
+ if(fHistITSLayerHits) delete fHistITSLayerHits;fHistITSLayerHits=0;
+ if(fHistOneHitWithSDD) delete fHistOneHitWithSDD;fHistOneHitWithSDD=0;
+ if(fHistNEvents) delete fHistNEvents; fHistNEvents=0;
+ if(fHistNPrim) delete fHistNPrim; fHistNPrim=0;
+ if(fHistMuliplicity) delete fHistMuliplicity;fHistMuliplicity =0;
+ if(fHistMuliplicityRaw) delete fHistMuliplicityRaw;fHistMuliplicityRaw =0;
+ if(fHistCentBinRaw) delete fHistCentBinRaw; fHistCentBinRaw=0;
+ if(fHistCentBin) delete fHistCentBin; fHistCentBin=0;
+ if(fHistMultiplicityPrimary) delete fHistMultiplicityPrimary;fHistMultiplicityPrimary=0;
- if(fHistESDVertexZ) delete fHistESDVertexZ; fHistESDVertexZ=0;
- if(fHistMCVertexZ) delete fHistMCVertexZ;fHistMCVertexZ=0;
+ if(fHistESDVertexZ) delete fHistESDVertexZ; fHistESDVertexZ=0;
+ if(fHistMCVertexZ) delete fHistMCVertexZ;fHistMCVertexZ=0;
- // if(fHistUserPtShift) delete fHistUserPtShift; fHistUserPtShift=0;
+ // if(fHistUserPtShift) delete fHistUserPtShift; fHistUserPtShift=0;
- if(fHistPrimVtxZESDVSNContributors) delete fHistPrimVtxZESDVSNContributors;fHistPrimVtxZESDVSNContributors=0;
- if(fHistPrimVtxZESDTPCVSNContributors) delete fHistPrimVtxZESDTPCVSNContributors;fHistPrimVtxZESDTPCVSNContributors=0;
- if(fHistPrimVtxZESDSPDVSNContributors) delete fHistPrimVtxZESDSPDVSNContributors;fHistPrimVtxZESDSPDVSNContributors=0;
+ if(fHistPrimVtxZESDVSNContributors) delete fHistPrimVtxZESDVSNContributors;fHistPrimVtxZESDVSNContributors=0;
+ if(fHistPrimVtxZESDTPCVSNContributors) delete fHistPrimVtxZESDTPCVSNContributors;fHistPrimVtxZESDTPCVSNContributors=0;
+ if(fHistPrimVtxZESDSPDVSNContributors) delete fHistPrimVtxZESDSPDVSNContributors;fHistPrimVtxZESDSPDVSNContributors=0;
- if(fHistPrimVtxZESDVSNContributorsMC) delete fHistPrimVtxZESDVSNContributorsMC;fHistPrimVtxZESDVSNContributorsMC=0;
- if(fHistPrimVtxZESDTPCVSNContributorsMC) delete fHistPrimVtxZESDTPCVSNContributorsMC;fHistPrimVtxZESDTPCVSNContributorsMC=0;
- if(fHistPrimVtxZESDSPDVSNContributorsMC) delete fHistPrimVtxZESDSPDVSNContributorsMC;fHistPrimVtxZESDSPDVSNContributorsMC=0;
+ if(fHistPrimVtxZESDVSNContributorsMC) delete fHistPrimVtxZESDVSNContributorsMC;fHistPrimVtxZESDVSNContributorsMC=0;
+ if(fHistPrimVtxZESDTPCVSNContributorsMC) delete fHistPrimVtxZESDTPCVSNContributorsMC;fHistPrimVtxZESDTPCVSNContributorsMC=0;
+ if(fHistPrimVtxZESDSPDVSNContributorsMC) delete fHistPrimVtxZESDSPDVSNContributorsMC;fHistPrimVtxZESDSPDVSNContributorsMC=0;
- if(fHistPrimVtxZESD) delete fHistPrimVtxZESD; fHistPrimVtxZESD =0;
- if(fHistPrimVtxZESDTPC) delete fHistPrimVtxZESDTPC; fHistPrimVtxZESDTPC =0;
- if(fHistPrimVtxZESDSPD) delete fHistPrimVtxZESDSPD; fHistPrimVtxZESDSPD =0;
+ if(fHistPrimVtxZESD) delete fHistPrimVtxZESD; fHistPrimVtxZESD =0;
+ if(fHistPrimVtxZESDTPC) delete fHistPrimVtxZESDTPC; fHistPrimVtxZESDTPC =0;
+ if(fHistPrimVtxZESDSPD) delete fHistPrimVtxZESDSPD; fHistPrimVtxZESDSPD =0;
- if(fHistPiPCosPointAngXiVsPt) delete fHistPiPCosPointAngXiVsPt;fHistPiPCosPointAngXiVsPt=0;
- if(fHistPiAPCosPointAngXiVsPt) delete fHistPiAPCosPointAngXiVsPt;fHistPiAPCosPointAngXiVsPt=0;
+ if(fHistPiPCosPointAngXiVsPt) delete fHistPiPCosPointAngXiVsPt;fHistPiPCosPointAngXiVsPt=0;
+ if(fHistPiAPCosPointAngXiVsPt) delete fHistPiAPCosPointAngXiVsPt;fHistPiAPCosPointAngXiVsPt=0;
- if(fHistPiPPDGCode) delete fHistPiPPDGCode;fHistPiPPDGCode=0;
- if(fHistPiPiPDGCode) delete fHistPiPiPDGCode;fHistPiPiPDGCode=0;
- if(fHistPiAPPDGCode) delete fHistPiAPPDGCode;fHistPiAPPDGCode=0;
+ if(fHistPiPPDGCode) delete fHistPiPPDGCode;fHistPiPPDGCode=0;
+ if(fHistPiPiPDGCode) delete fHistPiPiPDGCode;fHistPiPiPDGCode=0;
+ if(fHistPiAPPDGCode) delete fHistPiAPPDGCode;fHistPiAPPDGCode=0;
- for(Int_t j=0;j<2;j++){// for primaries j=0 and secondaries j=1
- //general V0
- if(fHistArmenteros[j]) delete fHistArmenteros[j];fHistArmenteros[j]=0;
- if(fHistV0RadiusZ[j]) delete fHistV0RadiusZ[j];fHistV0RadiusZ[j]=0;
- if(fHistV0RadiusZVSPt[j]) delete fHistV0RadiusZVSPt[j];fHistV0RadiusZVSPt[j]=0;
- if(fHistV0RadiusXY[j]) delete fHistV0RadiusXY[j];fHistV0RadiusXY[j]=0;
- if(fHistV0RadiusXYVSY[j]) delete fHistV0RadiusXYVSY[j];fHistV0RadiusXYVSY[j]=0;
+ for(Int_t j=0;j<2;j++){// for primaries j=0 and secondaries j=1
+ //general V0
+ if(fHistArmenteros[j]) delete fHistArmenteros[j];fHistArmenteros[j]=0;
+ if(fHistV0RadiusZ[j]) delete fHistV0RadiusZ[j];fHistV0RadiusZ[j]=0;
+ if(fHistV0RadiusZVSPt[j]) delete fHistV0RadiusZVSPt[j];fHistV0RadiusZVSPt[j]=0;
+ if(fHistV0RadiusXY[j]) delete fHistV0RadiusXY[j];fHistV0RadiusXY[j]=0;
+ if(fHistV0RadiusXYVSY[j]) delete fHistV0RadiusXYVSY[j];fHistV0RadiusXYVSY[j]=0;
- //K0
- if(fHistPiPiMass[j]) delete fHistPiPiMass[j];fHistPiPiMass[j]=0;
- if(fHistPiPiPtVSY[j]) delete fHistPiPiPtVSY[j];fHistPiPiPtVSY[j]=0;
- if(fHistPiPiMassVSPt[j]) delete fHistPiPiMassVSPt[j]; fHistPiPiMassVSPt[j]=0;
- if(fHistPiPiMassVSPtMCTruth[j]) delete fHistPiPiMassVSPtMCTruth[j]; fHistPiPiMassVSPtMCTruth[j]=0;
- // if(fHistPiPiMassVSAlpha[j])delete fHistPiPiMassVSAlpha[j];fHistPiPiMassVSAlpha[j]=0;
- if(fHistPiPiRadiusXY[j]) delete fHistPiPiRadiusXY[j];fHistPiPiRadiusXY[j]=0;
- if(fHistPiPiCosPointAng[j]) delete fHistPiPiCosPointAng[j];fHistPiPiCosPointAng[j]=0;
- if(fHistPiPiDCADaughterPosToPrimVtxVSMass[j]) delete fHistPiPiDCADaughterPosToPrimVtxVSMass[j];fHistPiPiDCADaughterPosToPrimVtxVSMass[j]=0;
- if(fHistPiPiDecayLengthVsPt[j]) delete fHistPiPiDecayLengthVsPt[j]; fHistPiPiDecayLengthVsPt[j]=0;
- if(fHistPiPiDecayLengthVsMass[j]) delete fHistPiPiDecayLengthVsMass[j]; fHistPiPiDecayLengthVsMass[j]=0;
- //if(fHistPiPiMassVSPtK0L[j]) delete fHistPiPiMassVSPtK0L[j];fHistPiPiMassVSPtK0L[j]=0;
- if(fHistPiPiDCADaughters[j]) delete fHistPiPiDCADaughters[j];fHistPiPiDCADaughters[j]=0;
- if(fHistPiPiPtDaughters[j]) delete fHistPiPiPtDaughters[j];fHistPiPiPtDaughters[j]=0;
- if(fHistPiPiDCAVSMass[j]) delete fHistPiPiDCAVSMass[j]; fHistPiPiDCAVSMass[j]=0;
- if(fHistPiPiMonitorCuts[j]) delete fHistPiPiMonitorCuts[j];fHistPiPiMonitorCuts[j]=0;
+ //K0
+ if(fHistPiPiMass[j]) delete fHistPiPiMass[j];fHistPiPiMass[j]=0;
+ if(fHistPiPiPtVSY[j]) delete fHistPiPiPtVSY[j];fHistPiPiPtVSY[j]=0;
+ if(fHistPiPiMassVSPt[j]) delete fHistPiPiMassVSPt[j]; fHistPiPiMassVSPt[j]=0;
+ if(fHistPiPiMassVSPtMCTruth[j]) delete fHistPiPiMassVSPtMCTruth[j]; fHistPiPiMassVSPtMCTruth[j]=0;
+ // if(fHistPiPiMassVSAlpha[j])delete fHistPiPiMassVSAlpha[j];fHistPiPiMassVSAlpha[j]=0;
+ if(fHistPiPiRadiusXY[j]) delete fHistPiPiRadiusXY[j];fHistPiPiRadiusXY[j]=0;
+ if(fHistPiPiCosPointAng[j]) delete fHistPiPiCosPointAng[j];fHistPiPiCosPointAng[j]=0;
+ if(fHistPiPiDCADaughterPosToPrimVtxVSMass[j]) delete fHistPiPiDCADaughterPosToPrimVtxVSMass[j];fHistPiPiDCADaughterPosToPrimVtxVSMass[j]=0;
+ if(fHistPiPiDecayLengthVsPt[j]) delete fHistPiPiDecayLengthVsPt[j]; fHistPiPiDecayLengthVsPt[j]=0;
+ if(fHistPiPiDecayLengthVsMass[j]) delete fHistPiPiDecayLengthVsMass[j]; fHistPiPiDecayLengthVsMass[j]=0;
+ //if(fHistPiPiMassVSPtK0L[j]) delete fHistPiPiMassVSPtK0L[j];fHistPiPiMassVSPtK0L[j]=0;
+ if(fHistPiPiDCADaughters[j]) delete fHistPiPiDCADaughters[j];fHistPiPiDCADaughters[j]=0;
+ if(fHistPiPiPtDaughters[j]) delete fHistPiPiPtDaughters[j];fHistPiPiPtDaughters[j]=0;
+ if(fHistPiPiDCAVSMass[j]) delete fHistPiPiDCAVSMass[j]; fHistPiPiDCAVSMass[j]=0;
+ if(fHistPiPiMonitorCuts[j]) delete fHistPiPiMonitorCuts[j];fHistPiPiMonitorCuts[j]=0;
- //lambda
- if(fHistPiPMass[j]) delete fHistPiPMass[j];fHistPiPMass[j]=0;
- if(fHistPiPMassVSPt[j]) delete fHistPiPMassVSPt[j];fHistPiPMassVSPt[j]=0;
- if(fHistPiPMassVSPtMCTruth[j]) delete fHistPiPMassVSPtMCTruth[j]; fHistPiPMassVSPtMCTruth[j]=0;
- if(fHistPiPRadiusXY[j]) delete fHistPiPRadiusXY[j];fHistPiPRadiusXY[j]=0;
- if(fHistPiPCosPointAng[j]) delete fHistPiPCosPointAng[j];fHistPiPCosPointAng[j]=0;
- if(fHistPiPDCADaughterPosToPrimVtxVSMass[j]) delete fHistPiPDCADaughterPosToPrimVtxVSMass[j];fHistPiPDCADaughterPosToPrimVtxVSMass[j]=0;
- if(fHistPiPDecayLengthVsPt[j]) delete fHistPiPDecayLengthVsPt[j]; fHistPiPDecayLengthVsPt[j]=0;
- if(fHistPiPDecayLengthVsMass[j]) delete fHistPiPDecayLengthVsMass[j]; fHistPiPDecayLengthVsMass[j]=0;
- if(fHistPiPDCADaughters[j]) delete fHistPiPDCADaughters[j];fHistPiPDCADaughters[j]=0;
- if(fHistPiPPtDaughters[j]) delete fHistPiPPtDaughters[j];fHistPiPPtDaughters[j]=0;
- if(fHistPiPPtVSY[j]) delete fHistPiPPtVSY[j];fHistPiPPtVSY[j]=0;
- if(fHistPiPDCAVSMass[j]) delete fHistPiPDCAVSMass[j]; fHistPiPDCAVSMass[j]=0;
- if(fHistPiPMonitorCuts[j]) delete fHistPiPMonitorCuts[j];fHistPiPMonitorCuts[j]=0;
+ //lambda
+ if(fHistPiPMass[j]) delete fHistPiPMass[j];fHistPiPMass[j]=0;
+ if(fHistPiPMassVSPt[j]) delete fHistPiPMassVSPt[j];fHistPiPMassVSPt[j]=0;
+ if(fHistPiPMassVSPtMCTruth[j]) delete fHistPiPMassVSPtMCTruth[j]; fHistPiPMassVSPtMCTruth[j]=0;
+ if(fHistPiPRadiusXY[j]) delete fHistPiPRadiusXY[j];fHistPiPRadiusXY[j]=0;
+ if(fHistPiPCosPointAng[j]) delete fHistPiPCosPointAng[j];fHistPiPCosPointAng[j]=0;
+ if(fHistPiPDCADaughterPosToPrimVtxVSMass[j]) delete fHistPiPDCADaughterPosToPrimVtxVSMass[j];fHistPiPDCADaughterPosToPrimVtxVSMass[j]=0;
+ if(fHistPiPDecayLengthVsPt[j]) delete fHistPiPDecayLengthVsPt[j]; fHistPiPDecayLengthVsPt[j]=0;
+ if(fHistPiPDecayLengthVsMass[j]) delete fHistPiPDecayLengthVsMass[j]; fHistPiPDecayLengthVsMass[j]=0;
+ if(fHistPiPDCADaughters[j]) delete fHistPiPDCADaughters[j];fHistPiPDCADaughters[j]=0;
+ if(fHistPiPPtDaughters[j]) delete fHistPiPPtDaughters[j];fHistPiPPtDaughters[j]=0;
+ if(fHistPiPPtVSY[j]) delete fHistPiPPtVSY[j];fHistPiPPtVSY[j]=0;
+ if(fHistPiPDCAVSMass[j]) delete fHistPiPDCAVSMass[j]; fHistPiPDCAVSMass[j]=0;
+ if(fHistPiPMonitorCuts[j]) delete fHistPiPMonitorCuts[j];fHistPiPMonitorCuts[j]=0;
- //alambda
- if(fHistPiAPMass[j])delete fHistPiAPMass[j];fHistPiAPMass[j] =0;
- if(fHistPiAPPtVSY[j]) delete fHistPiAPPtVSY[j];fHistPiAPPtVSY[j]=0;
- if(fHistPiAPMassVSPt[j]) delete fHistPiAPMassVSPt[j]; fHistPiAPMassVSPt[j]=0;
- if(fHistPiAPMassVSPtMCTruth[j]) delete fHistPiAPMassVSPtMCTruth[j]; fHistPiAPMassVSPtMCTruth[j]=0;
- if(fHistPiAPRadiusXY[j]) delete fHistPiAPRadiusXY[j];fHistPiAPRadiusXY[j]=0;;
- if(fHistPiAPCosPointAng[j]) delete fHistPiAPCosPointAng[j];fHistPiAPCosPointAng[j]=0;
- if(fHistPiAPDCADaughterPosToPrimVtxVSMass[j]) delete fHistPiAPDCADaughterPosToPrimVtxVSMass[j];fHistPiAPDCADaughterPosToPrimVtxVSMass[j]=0;
- if(fHistPiAPDecayLengthVsPt[j]) delete fHistPiAPDecayLengthVsPt[j]; fHistPiAPDecayLengthVsPt[j]=0;
- if(fHistPiAPDecayLengthVsMass[j]) delete fHistPiAPDecayLengthVsMass[j]; fHistPiAPDecayLengthVsMass[j]=0;
- if(fHistPiAPDCADaughters[j]) delete fHistPiAPDCADaughters[j];fHistPiAPDCADaughters[j]=0;
- if(fHistPiAPPtDaughters[j]) delete fHistPiAPPtDaughters[j];fHistPiAPPtDaughters[j]=0;
- if(fHistPiAPDCAVSMass[j]) delete fHistPiAPDCAVSMass[j]; fHistPiAPDCAVSMass[j]=0;
- if(fHistPiAPMonitorCuts[j]) delete fHistPiAPMonitorCuts[j];fHistPiAPMonitorCuts[j]=0;
+ //alambda
+ if(fHistPiAPMass[j])delete fHistPiAPMass[j];fHistPiAPMass[j] =0;
+ if(fHistPiAPPtVSY[j]) delete fHistPiAPPtVSY[j];fHistPiAPPtVSY[j]=0;
+ if(fHistPiAPMassVSPt[j]) delete fHistPiAPMassVSPt[j]; fHistPiAPMassVSPt[j]=0;
+ if(fHistPiAPMassVSPtMCTruth[j]) delete fHistPiAPMassVSPtMCTruth[j]; fHistPiAPMassVSPtMCTruth[j]=0;
+ if(fHistPiAPRadiusXY[j]) delete fHistPiAPRadiusXY[j];fHistPiAPRadiusXY[j]=0;;
+ if(fHistPiAPCosPointAng[j]) delete fHistPiAPCosPointAng[j];fHistPiAPCosPointAng[j]=0;
+ if(fHistPiAPDCADaughterPosToPrimVtxVSMass[j]) delete fHistPiAPDCADaughterPosToPrimVtxVSMass[j];fHistPiAPDCADaughterPosToPrimVtxVSMass[j]=0;
+ if(fHistPiAPDecayLengthVsPt[j]) delete fHistPiAPDecayLengthVsPt[j]; fHistPiAPDecayLengthVsPt[j]=0;
+ if(fHistPiAPDecayLengthVsMass[j]) delete fHistPiAPDecayLengthVsMass[j]; fHistPiAPDecayLengthVsMass[j]=0;
+ if(fHistPiAPDCADaughters[j]) delete fHistPiAPDCADaughters[j];fHistPiAPDCADaughters[j]=0;
+ if(fHistPiAPPtDaughters[j]) delete fHistPiAPPtDaughters[j];fHistPiAPPtDaughters[j]=0;
+ if(fHistPiAPDCAVSMass[j]) delete fHistPiAPDCAVSMass[j]; fHistPiAPDCAVSMass[j]=0;
+ if(fHistPiAPMonitorCuts[j]) delete fHistPiAPMonitorCuts[j];fHistPiAPMonitorCuts[j]=0;
- //lambda and alambda
- if(fHistPiPMassVSPtSecSigma[j]) delete fHistPiPMassVSPtSecSigma[j];fHistPiPMassVSPtSecSigma[j]=0;
- if(fHistPiPMassVSPtSecXi[j]) delete fHistPiPMassVSPtSecXi[j];fHistPiPMassVSPtSecXi[j]=0;
- if(fHistPiPMassVSYSecXi[j]) delete fHistPiPMassVSYSecXi[j];fHistPiPMassVSYSecXi[j]=0;
- if(fHistPiPXi0PtVSLambdaPt[j]) delete fHistPiPXi0PtVSLambdaPt[j];fHistPiPXi0PtVSLambdaPt[j]=0;
- if(fHistPiPXiMinusPtVSLambdaPt[j]) delete fHistPiPXiMinusPtVSLambdaPt[j]; fHistPiPXiMinusPtVSLambdaPt[j]=0;
- if(fHistPiAPMassVSPtSecSigma[j]) delete fHistPiAPMassVSPtSecSigma[j];fHistPiAPMassVSPtSecSigma[j]=0;
- if(fHistPiAPMassVSPtSecXi[j]) delete fHistPiAPMassVSPtSecXi[j];fHistPiAPMassVSPtSecXi[j]=0;
- if(fHistPiAPMassVSYSecXi[j]) delete fHistPiAPMassVSYSecXi[j];fHistPiAPMassVSYSecXi[j]=0;
- if(fHistPiAPXi0PtVSLambdaPt[j]) delete fHistPiAPXi0PtVSLambdaPt[j];fHistPiAPXi0PtVSLambdaPt[j]=0;
- if(fHistPiAPXiMinusPtVSLambdaPt[j]) delete fHistPiAPXiMinusPtVSLambdaPt[j]; fHistPiAPXiMinusPtVSLambdaPt[j]=0;
+ //lambda and alambda
+ if(fHistPiPMassVSPtSecSigma[j]) delete fHistPiPMassVSPtSecSigma[j];fHistPiPMassVSPtSecSigma[j]=0;
+ if(fHistPiPMassVSPtSecXi[j]) delete fHistPiPMassVSPtSecXi[j];fHistPiPMassVSPtSecXi[j]=0;
+ if(fHistPiPMassVSYSecXi[j]) delete fHistPiPMassVSYSecXi[j];fHistPiPMassVSYSecXi[j]=0;
+ if(fHistPiPXi0PtVSLambdaPt[j]) delete fHistPiPXi0PtVSLambdaPt[j];fHistPiPXi0PtVSLambdaPt[j]=0;
+ if(fHistPiPXiMinusPtVSLambdaPt[j]) delete fHistPiPXiMinusPtVSLambdaPt[j]; fHistPiPXiMinusPtVSLambdaPt[j]=0;
+ if(fHistPiAPMassVSPtSecSigma[j]) delete fHistPiAPMassVSPtSecSigma[j];fHistPiAPMassVSPtSecSigma[j]=0;
+ if(fHistPiAPMassVSPtSecXi[j]) delete fHistPiAPMassVSPtSecXi[j];fHistPiAPMassVSPtSecXi[j]=0;
+ if(fHistPiAPMassVSYSecXi[j]) delete fHistPiAPMassVSYSecXi[j];fHistPiAPMassVSYSecXi[j]=0;
+ if(fHistPiAPXi0PtVSLambdaPt[j]) delete fHistPiAPXi0PtVSLambdaPt[j];fHistPiAPXi0PtVSLambdaPt[j]=0;
+ if(fHistPiAPXiMinusPtVSLambdaPt[j]) delete fHistPiAPXiMinusPtVSLambdaPt[j]; fHistPiAPXiMinusPtVSLambdaPt[j]=0;
- //others
- if(fHistDedxSecProt[j]) delete fHistDedxSecProt[j];fHistDedxSecProt[j]=0;
- if(fHistDedxSecAProt[j]) delete fHistDedxSecAProt[j]; fHistDedxSecAProt[j]=0;
- if(fHistDedxSecPiMinus[j]) delete fHistDedxSecPiMinus[j];fHistDedxSecPiMinus[j]=0;
- if(fHistDedxSecPiPlus[j]) delete fHistDedxSecPiPlus[j] ;fHistDedxSecPiPlus[j]=0;
- if(fHistNclsITSPosK0[j]) delete fHistNclsITSPosK0[j];fHistNclsITSPosK0[j]=0;
- if(fHistNclsITSNegK0[j]) delete fHistNclsITSNegK0[j];fHistNclsITSNegK0[j]=0;
- if(fHistNclsTPCPosK0[j]) delete fHistNclsTPCPosK0[j];fHistNclsTPCPosK0[j]=0;
- if(fHistNclsTPCNegK0[j]) delete fHistNclsTPCNegK0[j];fHistNclsTPCNegK0[j]=0;
- if(fHistChi2PerNclsITSPosK0[j]) delete fHistChi2PerNclsITSPosK0[j];fHistChi2PerNclsITSPosK0[j]=0;
- if(fHistChi2PerNclsITSNegK0[j]) delete fHistChi2PerNclsITSNegK0[j];fHistChi2PerNclsITSNegK0[j]=0;
- if(fHistNclsITSPosL[j]) delete fHistNclsITSPosL[j];fHistNclsITSPosL[j]=0;
- if(fHistNclsITSNegL[j]) delete fHistNclsITSNegL[j];fHistNclsITSNegL[j]=0;
- if(fHistNclsTPCPosL[j]) delete fHistNclsTPCPosL[j];fHistNclsTPCPosL[j]=0;
- if(fHistNclsTPCNegL[j]) delete fHistNclsTPCNegL[j];fHistNclsTPCNegL[j]=0;
- if(fHistChi2PerNclsITSPosL[j]) delete fHistChi2PerNclsITSPosL[j];fHistChi2PerNclsITSPosL[j]=0;
- if(fHistChi2PerNclsITSNegL[j]) delete fHistChi2PerNclsITSNegL[j];fHistChi2PerNclsITSNegL[j]=0;
- if(fHistNclsITSPos[j]) delete fHistNclsITSPos[j];fHistNclsITSPos[j]=0;
- if(fHistNclsITSNeg[j]) delete fHistNclsITSNeg[j];fHistNclsITSNeg[j]=0;
- if(fHistNclsTPCPos[j]) delete fHistNclsTPCPos[j];fHistNclsTPCPos[j]=0;
- if(fHistNclsTPCNeg[j]) delete fHistNclsTPCNeg[j];fHistNclsTPCNeg[j]=0;
- if(fHistChi2PerNclsITSPos[j]) delete fHistChi2PerNclsITSPos[j];fHistChi2PerNclsITSPos[j]=0;
- if(fHistChi2PerNclsITSNeg[j]) delete fHistChi2PerNclsITSNeg[j];fHistChi2PerNclsITSNeg[j]=0;
- if(fHistNCRowsTPCNeg[j]) delete fHistNCRowsTPCNeg[j];fHistNCRowsTPCNeg[j]=0;
- if(fHistNCRowsTPCPos[j]) delete fHistNCRowsTPCPos[j];fHistNCRowsTPCPos[j]=0;
- if(fHistNclsITS[j]) delete fHistNclsITS[j];fHistNclsITS[j]=0;
- if(fHistNclsTPC[j]) delete fHistNclsTPC[j];fHistNclsTPC[j]=0;
-
- if(fHistPiPiEtaDMC[j]) delete fHistPiPiEtaDMC[j];fHistPiPiEtaDMC[j]=0;
- if(fHistPiPEtaDMC[j]) delete fHistPiPEtaDMC[j];fHistPiPEtaDMC[j]=0;
- if(fHistPiPiEtaDReco[j]) delete fHistPiPiEtaDReco[j];fHistPiPiEtaDReco[j]=0;
- if(fHistPiPEtaDReco[j]) delete fHistPiPEtaDReco[j];fHistPiPEtaDReco[j]=0;
- }
+ //others
+ if(fHistDedxSecProt[j]) delete fHistDedxSecProt[j];fHistDedxSecProt[j]=0;
+ if(fHistDedxSecAProt[j]) delete fHistDedxSecAProt[j]; fHistDedxSecAProt[j]=0;
+ if(fHistDedxSecPiMinus[j]) delete fHistDedxSecPiMinus[j];fHistDedxSecPiMinus[j]=0;
+ if(fHistDedxSecPiPlus[j]) delete fHistDedxSecPiPlus[j] ;fHistDedxSecPiPlus[j]=0;
+ if(fHistNclsITSPosK0[j]) delete fHistNclsITSPosK0[j];fHistNclsITSPosK0[j]=0;
+ if(fHistNclsITSNegK0[j]) delete fHistNclsITSNegK0[j];fHistNclsITSNegK0[j]=0;
+ if(fHistNclsTPCPosK0[j]) delete fHistNclsTPCPosK0[j];fHistNclsTPCPosK0[j]=0;
+ if(fHistNclsTPCNegK0[j]) delete fHistNclsTPCNegK0[j];fHistNclsTPCNegK0[j]=0;
+ if(fHistChi2PerNclsITSPosK0[j]) delete fHistChi2PerNclsITSPosK0[j];fHistChi2PerNclsITSPosK0[j]=0;
+ if(fHistChi2PerNclsITSNegK0[j]) delete fHistChi2PerNclsITSNegK0[j];fHistChi2PerNclsITSNegK0[j]=0;
+ if(fHistNclsITSPosL[j]) delete fHistNclsITSPosL[j];fHistNclsITSPosL[j]=0;
+ if(fHistNclsITSNegL[j]) delete fHistNclsITSNegL[j];fHistNclsITSNegL[j]=0;
+ if(fHistNclsTPCPosL[j]) delete fHistNclsTPCPosL[j];fHistNclsTPCPosL[j]=0;
+ if(fHistNclsTPCNegL[j]) delete fHistNclsTPCNegL[j];fHistNclsTPCNegL[j]=0;
+ if(fHistChi2PerNclsITSPosL[j]) delete fHistChi2PerNclsITSPosL[j];fHistChi2PerNclsITSPosL[j]=0;
+ if(fHistChi2PerNclsITSNegL[j]) delete fHistChi2PerNclsITSNegL[j];fHistChi2PerNclsITSNegL[j]=0;
+ if(fHistNclsITSPos[j]) delete fHistNclsITSPos[j];fHistNclsITSPos[j]=0;
+ if(fHistNclsITSNeg[j]) delete fHistNclsITSNeg[j];fHistNclsITSNeg[j]=0;
+ if(fHistNclsTPCPos[j]) delete fHistNclsTPCPos[j];fHistNclsTPCPos[j]=0;
+ if(fHistNclsTPCNeg[j]) delete fHistNclsTPCNeg[j];fHistNclsTPCNeg[j]=0;
+ if(fHistChi2PerNclsITSPos[j]) delete fHistChi2PerNclsITSPos[j];fHistChi2PerNclsITSPos[j]=0;
+ if(fHistChi2PerNclsITSNeg[j]) delete fHistChi2PerNclsITSNeg[j];fHistChi2PerNclsITSNeg[j]=0;
+ if(fHistNCRowsTPCNeg[j]) delete fHistNCRowsTPCNeg[j];fHistNCRowsTPCNeg[j]=0;
+ if(fHistNCRowsTPCPos[j]) delete fHistNCRowsTPCPos[j];fHistNCRowsTPCPos[j]=0;
+ if(fHistNclsITS[j]) delete fHistNclsITS[j];fHistNclsITS[j]=0;
+ if(fHistNclsTPC[j]) delete fHistNclsTPC[j];fHistNclsTPC[j]=0;
+
+ if(fHistPiPiEtaDMC[j]) delete fHistPiPiEtaDMC[j];fHistPiPiEtaDMC[j]=0;
+ if(fHistPiPEtaDMC[j]) delete fHistPiPEtaDMC[j];fHistPiPEtaDMC[j]=0;
+ if(fHistPiPiEtaDReco[j]) delete fHistPiPiEtaDReco[j];fHistPiPiEtaDReco[j]=0;
+ if(fHistPiPEtaDReco[j]) delete fHistPiPEtaDReco[j];fHistPiPEtaDReco[j]=0;
+ }
}
//________________________________________________________________________
void AliAnalysisTaskV0ForRAA::UserCreateOutputObjects(){
- //create output objects
+ //create output objects
- Int_t nbPt=800;
- Int_t nbMass=500;
+ Int_t nbPt=800;
+ Int_t nbMass=500;
- //----------------- create output container -----------------//
+ //----------------- create output container -----------------//
- fOutputContainer = new TList() ;
- fOutputContainer->SetName(GetName()) ;
+ fOutputContainer = new TList() ;
+ fOutputContainer->SetName(GetName()) ;
- Int_t mchist = 1;// for Data
- if((fMCMode && fMCTruthMode) || fMCTruthMode) mchist = 2;
+ Int_t mchist = 1;// for Data
+ if((fMCMode && fMCTruthMode) || fMCTruthMode) mchist = 2;
- //------------ create allways -----------------------//
- fHistNEvents = new TH1F("fHistNEvents","no of events before cuts =0, after cuts=1, after process =2",5,0.0,5.0);
- fOutputContainer->Add(fHistNEvents);
+ //------------ create allways -----------------------//
+ fHistNEvents = new TH1F("fHistNEvents","no of events before cuts =0, after cuts=1, after process =2",5,0.0,5.0);
+ fOutputContainer->Add(fHistNEvents);
- fHistMuliplicity = new TH1F("fHistMuliplicity","V0 multiplicity",3000,0.0,30000);
- fOutputContainer->Add(fHistMuliplicity);
+ fHistMuliplicity = new TH1F("fHistMuliplicity","V0 multiplicity",3000,0.0,30000);
+ fOutputContainer->Add(fHistMuliplicity);
- fHistMuliplicityRaw = new TH1F("fHistMuliplicityRaw","V0 multiplicity before process",3000,0.0,30000);
- fOutputContainer->Add(fHistMuliplicityRaw);
+ fHistMuliplicityRaw = new TH1F("fHistMuliplicityRaw","V0 multiplicity before process",3000,0.0,30000);
+ fOutputContainer->Add(fHistMuliplicityRaw);
- fHistMultiplicityPrimary = new TH1F("fHistMultiplicityPrimary","number of charged tracks",5000,0.0,20000);
- fOutputContainer->Add(fHistMultiplicityPrimary);
+ fHistMultiplicityPrimary = new TH1F("fHistMultiplicityPrimary","number of charged tracks",5000,0.0,20000);
+ fOutputContainer->Add(fHistMultiplicityPrimary);
- fHistESDVertexZ= new TH1F("fHistESDVertexZ"," z vertex distr in cm",500,-50,50);
- fOutputContainer->Add(fHistESDVertexZ);
+ fHistESDVertexZ= new TH1F("fHistESDVertexZ"," z vertex distr in cm",500,-50,50);
+ fOutputContainer->Add(fHistESDVertexZ);
- fHistPrimVtxZESD = new TH1F("fHistPrimVtxZESD","z vertex pos ESD",250,-50,50);
- fOutputContainer->Add(fHistPrimVtxZESD);
+ fHistPrimVtxZESD = new TH1F("fHistPrimVtxZESD","z vertex pos ESD",250,-50,50);
+ fOutputContainer->Add(fHistPrimVtxZESD);
- fHistPrimVtxZESDVSNContributors = new TH2F("fHistPrimVtxZESDVSNContributors","prim vtx pos z ESD vs no. of contributers TPC",250,-50,50,500,0.0,500.0);
- fOutputContainer->Add(fHistPrimVtxZESDVSNContributors);
+ fHistPrimVtxZESDVSNContributors = new TH2F("fHistPrimVtxZESDVSNContributors","prim vtx pos z ESD vs no. of contributers TPC",250,-50,50,500,0.0,500.0);
+ fOutputContainer->Add(fHistPrimVtxZESDVSNContributors);
- fHistNPrim = new TH1F("fHistNPrim","Number of contributers to vertex",3000,0.0,30000);
- fOutputContainer->Add(fHistNPrim);
+ fHistNPrim = new TH1F("fHistNPrim","Number of contributers to vertex",2500,0.0,5000);
+ fOutputContainer->Add(fHistNPrim);
- //------------------------ pp analysis only -------------------------//
- if(fAnapp){
- fHistITSLayerHits = new TH1F("fHistITSLayerHits","SDD layer -1=0,1=1,2=2 ... 5=5,0=nothing",7,-1.5,5.5);
- fOutputContainer->Add(fHistITSLayerHits);
- fHistOneHitWithSDD = new TH1F("fHistOneHitWithSDD","min one hit in SDD",2,-0.5,1.5);
- fOutputContainer->Add(fHistOneHitWithSDD);
- fHistPrimVtxZESDTPC = new TH1F("fHistPrimVtxZESDTPC","z vertex pos TPC",250,-50,50);
- fOutputContainer->Add(fHistPrimVtxZESDTPC);
- fHistPrimVtxZESDSPD = new TH1F("fHistPrimVtxZESDSPD","z vertex pos SPD",250,-50,50);
- fOutputContainer->Add(fHistPrimVtxZESDSPD);
- fHistPrimVtxZESDTPCVSNContributors = new TH2F("fHistPrimVtxZESDTPCVSNContributors","prim vtx pos z TPC vs no. of contributers TPC",250,-50,50,500,0.0,500.0);
- fOutputContainer->Add(fHistPrimVtxZESDTPCVSNContributors);
- fHistPrimVtxZESDSPDVSNContributors = new TH2F("fHistPrimVtxZESDSPDVSNContributors","prim vtx pos z SPD vs no. of contributers TPC",250,-50,50,500,0.0,500.0);
- fOutputContainer->Add(fHistPrimVtxZESDSPDVSNContributors);
-
- }
- else {
- Double_t binsCent[12]={0.0,5.0,10.0,20.0,30.0,40.0,50.0,60.0,70.0,80.0,90.0,100.0};
- fHistCentBinRaw = new TH1F("fHistCentBinRaw","centrality bin before cent selection",11,binsCent);
- fOutputContainer->Add(fHistCentBinRaw);
- fHistCentBin = new TH1F("fHistCentBin","centrality bin",11,binsCent);
- fOutputContainer->Add(fHistCentBin);
-
- }
-
- // ------------------- add always ---------------------------//
- fHistV0RadiusZ[0] = new TH2F("fHistV0RadiusZ","z of decay radius vs 2D radius",100,0.0,100.0,250,-125.0,125.0);
- fHistV0RadiusZVSPt[0] = new TH2F("fHistV0RadiusZVSPt","z of decay radius vs pt radius",200,0.0,20.0,125,0.0,125.0);
- fHistV0RadiusXY[0] = new TH2F("fHistV0RadiusXY","y vs x decay radius",250,-125.0,125.0,250,-125.0,125.0);
- fHistV0RadiusXYVSY[0] = new TH2F("fHistV0RadiusXYVSY","2D decay radius vs rap",100,-10,10,100,0.0,100.0);
- fHistArmenteros[0] = new TH2F("fHistArmenteros"," pi+pi- armenteros",nbMass,-1.,1.,500,0.,0.5);
-
- //***************************************** K0s **********************************//
- fHistPiPiMass[0] = new TH1F("fHistPiPiMass"," pi+pi- InvMass distribution",2*nbMass,0.,2.);
- fHistPiPiMassVSPt[0] = new TH2F("fHistPiPiMassVSPt","pi+pi- InvMass distribution",nbMass,0.25,0.75,300,0.0,30.0);
- fHistPiPiMassVSPtMCTruth[0] = new TH2F("fHistPiPiMassVSPtMCTruth","pi+pi- InvMass distribution vs pt MCTruth",nbMass,0.25,0.75,300,0.0,30.0);
- fHistPiPiPtVSY[0] = new TH2F("fHistPiPiPtVSY","p{t} vs y",100,-1,1,100,0.0,20);
- fHistPiPiDecayLengthVsPt[0] = new TH2F("fHistPiPiDecayLengthVsPt","K0 decay length vs pt",200,0.0,20.0,200,0.0,100.0);
+ //------------------------ pp analysis only -------------------------//
+ if(fAnapp){
+ fHistITSLayerHits = new TH1F("fHistITSLayerHits","SDD layer -1=0,1=1,2=2 ... 5=5,0=nothing",7,-1.5,5.5);
+ fOutputContainer->Add(fHistITSLayerHits);
+ fHistOneHitWithSDD = new TH1F("fHistOneHitWithSDD","min one hit in SDD",2,-0.5,1.5);
+ fOutputContainer->Add(fHistOneHitWithSDD);
+ fHistPrimVtxZESDTPC = new TH1F("fHistPrimVtxZESDTPC","z vertex pos TPC",250,-50,50);
+ fOutputContainer->Add(fHistPrimVtxZESDTPC);
+ fHistPrimVtxZESDSPD = new TH1F("fHistPrimVtxZESDSPD","z vertex pos SPD",250,-50,50);
+ fOutputContainer->Add(fHistPrimVtxZESDSPD);
+ fHistPrimVtxZESDTPCVSNContributors = new TH2F("fHistPrimVtxZESDTPCVSNContributors","prim vtx pos z TPC vs no. of contributers TPC",250,-50,50,500,0.0,500.0);
+ fOutputContainer->Add(fHistPrimVtxZESDTPCVSNContributors);
+ fHistPrimVtxZESDSPDVSNContributors = new TH2F("fHistPrimVtxZESDSPDVSNContributors","prim vtx pos z SPD vs no. of contributers TPC",250,-50,50,500,0.0,500.0);
+ fOutputContainer->Add(fHistPrimVtxZESDSPDVSNContributors);
+
+ }
+ else {
+ Double_t binsCent[12]={0.0,5.0,10.0,20.0,30.0,40.0,50.0,60.0,70.0,80.0,90.0,100.0};
+ fHistCentBinRaw = new TH1F("fHistCentBinRaw","centrality bin before cent selection",11,binsCent);
+ fOutputContainer->Add(fHistCentBinRaw);
+ fHistCentBin = new TH1F("fHistCentBin","centrality bin",11,binsCent);
+ fOutputContainer->Add(fHistCentBin);
+
+ }
- //***************************************** Lambda **********************************//
- fHistPiPMass[0] = new TH1F("fHistPiPMass"," p+pi- InvMass distribution",2*nbMass,0.,2.);
- fHistPiPMassVSPt[0] = new TH2F("fHistPiPMassVSPt","p+pi- InvMass distribution",nbMass,1.05,1.25,300,0.0,30.0);
- fHistPiPMassVSPtMCTruth[0] = new TH2F("fHistPiPMassVSPtMCTruth","p+pi- InvMass distribution vs pt MCTruth",nbMass,1.05,1.25,300,0.0,30.0);
- fHistPiPPtVSY[0] = new TH2F("fHistPiPPtVSY","p{t} vs y",100,-1,1,100,0.0,20);
- fHistPiPDecayLengthVsPt[0] = new TH2F("fHistPiPDecayLengthVsPt","#Lambda decay length vs pt",200,0.0,20.0,200,0.0,100.0);
+ // ------------------- add always ---------------------------//
+ fHistV0RadiusZ[0] = new TH2F("fHistV0RadiusZ","z of decay radius vs 2D radius",100,0.0,100.0,250,-125.0,125.0);
+ fHistV0RadiusZVSPt[0] = new TH2F("fHistV0RadiusZVSPt","z of decay radius vs pt radius",200,0.0,20.0,125,0.0,125.0);
+ fHistV0RadiusXY[0] = new TH2F("fHistV0RadiusXY","y vs x decay radius",250,-125.0,125.0,250,-125.0,125.0);
+ fHistV0RadiusXYVSY[0] = new TH2F("fHistV0RadiusXYVSY","2D decay radius vs rap",100,-10,10,100,0.0,100.0);
+ fHistArmenteros[0] = new TH2F("fHistArmenteros"," pi+pi- armenteros",nbMass,-1.,1.,500,0.,0.5);
- //***************************************** AntiLambda **********************************//
- fHistPiAPMass[0] = new TH1F("fHistPiAPMass"," ap-pi+ InvMass distribution",2*nbMass,0.,2.);
- fHistPiAPMassVSPt[0] = new TH2F("fHistPiAPMassVSPt","p-pi+ InvMass distribution",nbMass,1.05,1.25,300,0.0,30.0);
- fHistPiAPMassVSPtMCTruth[0] = new TH2F("fHistPiAPMassVSPtMCTruth","p-pi+ InvMass distribution vs pt MCTruth",nbMass,1.05,1.25,300,0.0,30.0);
- fHistPiAPPtVSY[0] = new TH2F("fHistPiAPPtVSY","p{t} vs y",100,-1,1,100,0.0,20);
- fHistPiAPDecayLengthVsPt[0] = new TH2F("fHistPiAPDecayLengthVsPt","#bar{#Lambda} decay length vs pt",200,0.0,20.0,200,0.0,100.0);
-
- if(mchist==2){// for MC reco
- fHistV0RadiusZ[1] = new TH2F("fHistV0RadiusZSec","z of decay radius vs 2D radius",100,0.0,100.0,250,-125.0,125.0);
- fHistV0RadiusZVSPt[1] = new TH2F("fHistV0RadiusZVSPtSec","z of decay radius vs pt radius",200,0.0,20.0,125,0.0,125.0);
- fHistV0RadiusXY[1] = new TH2F("fHistV0RadiusXYSec","y vs x decay radius",250,-125.0,125.0,250,-125.0,125.0);
- fHistV0RadiusXYVSY[1] = new TH2F("fHistV0RadiusXYVSYSec","2D decay radius vs rap",100,-10,10,100,0.0,100.0);
- fHistArmenteros[1] = new TH2F("fHistArmenterosSec"," pi+pi- armenteros",nbMass,-1.,1.,500,0.,0.5);
-
- //***************************************** K0s **********************************//
- fHistPiPiMass[1] = new TH1F("fHistPiPiMassSec"," pi+pi- InvMass distribution",2*nbMass,0.,2.);
- fHistPiPiMassVSPt[1] = new TH2F("fHistPiPiMassVSPtSec","pi+pi- InvMass distribution",nbMass,0.25,0.75,300,0.0,30.0);
- fHistPiPiMassVSPtMCTruth[1] = new TH2F("fHistPiPiMassVSPtMCTruthSec","pi+pi- InvMass distribution vs pt MCTruth",nbMass,0.25,0.75,300,0.0,30.0);
- fHistPiPiPtVSY[1] = new TH2F("fHistPiPiPtVSYSec","p{t} vs y",100,-1,1,100,0.0,20);
- fHistPiPiDecayLengthVsPt[1] = new TH2F("fHistPiPiDecayLengthVsPt","K0 decay length vs pt",200,0.0,20.0,200,0.0,100.0);
-
- //***************************************** Lambda **********************************//
- fHistPiPMass[1] = new TH1F("fHistPiPMassSec"," p+pi- InvMass distribution",2*nbMass,0.,2.);
- fHistPiPMassVSPt[1] = new TH2F("fHistPiPMassVSPtSec","p+pi- InvMass distribution",nbMass,1.05,1.25,300,0.0,30.0);
- fHistPiPMassVSPtMCTruth[1] = new TH2F("fHistPiPMassVSPtMCTruthSec","p+pi- InvMass distribution vs pt MCTruth",nbMass,1.05,1.25,300,0.0,30.0);
- fHistPiPPtVSY[1] = new TH2F("fHistPiPPtVSYSec","p{t} vs y",100,-1,1,100,0.0,20);
- fHistPiPDecayLengthVsPt[1] = new TH2F("fHistPiPDecayLengthVsPtSec","#Lambda decay length vs pt",200,0.0,20.0,200,0.0,100.0);
-
- //***************************************** AntiLambda **********************************//
- fHistPiAPMass[1] = new TH1F("fHistPiAPMassSec"," ap-pi+ InvMass distribution",2*nbMass,0.,2.);
- fHistPiAPMassVSPt[1] = new TH2F("fHistPiAPMassVSPtSec","p-pi+ InvMass distribution",nbMass,1.05,1.25,300,0.0,30.0);
- fHistPiAPMassVSPtMCTruth[1] = new TH2F("fHistPiAPMassVSPtMCTruthSec","p-pi+ InvMass distribution vs pt MCTruth",nbMass,1.05,1.25,300,0.0,30.0);
- fHistPiAPPtVSY[1] = new TH2F("fHistPiAPPtVSYSec","p{t} vs y",100,-1,1,100,0.0,20);
- fHistPiAPDecayLengthVsPt[1] = new TH2F("fHistPiAPDecayLengthVsPtSec","#bar{#Lambda} decay length vs pt",200,0.0,20.0,200,0.0,100.0);
+ //***************************************** K0s **********************************//
+ fHistPiPiMass[0] = new TH1F("fHistPiPiMass"," pi+pi- InvMass distribution",2*nbMass,0.,2.);
+ fHistPiPiMassVSPt[0] = new TH2F("fHistPiPiMassVSPt","pi+pi- InvMass distribution",nbMass,0.25,0.75,300,0.0,30.0);
+ fHistPiPiMassVSPtMCTruth[0] = new TH2F("fHistPiPiMassVSPtMCTruth","pi+pi- InvMass distribution vs pt MCTruth",nbMass,0.25,0.75,300,0.0,30.0);
+ fHistPiPiPtVSY[0] = new TH2F("fHistPiPiPtVSY","p{t} vs y",100,-1,1,100,0.0,20);
+ fHistPiPiDecayLengthVsPt[0] = new TH2F("fHistPiPiDecayLengthVsPt","K0 decay length vs pt",200,0.0,20.0,200,0.0,100.0);
+ fHistPiPiMonitorCuts[0] = new TH1F("fHistPiPiMonitorCuts","K0 cut monitor",25,0.5,25.5);
+
+ //***************************************** Lambda **********************************//
+ fHistPiPMass[0] = new TH1F("fHistPiPMass"," p+pi- InvMass distribution",2*nbMass,0.,2.);
+ fHistPiPMassVSPt[0] = new TH2F("fHistPiPMassVSPt","p+pi- InvMass distribution",nbMass,1.05,1.25,300,0.0,30.0);
+ fHistPiPMassVSPtMCTruth[0] = new TH2F("fHistPiPMassVSPtMCTruth","p+pi- InvMass distribution vs pt MCTruth",nbMass,1.05,1.25,300,0.0,30.0);
+ fHistPiPPtVSY[0] = new TH2F("fHistPiPPtVSY","p{t} vs y",100,-1,1,100,0.0,20);
+ fHistPiPDecayLengthVsPt[0] = new TH2F("fHistPiPDecayLengthVsPt","#Lambda decay length vs pt",200,0.0,20.0,200,0.0,100.0);
+ fHistPiPMonitorCuts[0] = new TH1F("fHistPiPMonitorCuts","#Lambda cut monitor",25,0.5,25.5);
+
+ //***************************************** AntiLambda **********************************//
+ fHistPiAPMass[0] = new TH1F("fHistPiAPMass"," ap-pi+ InvMass distribution",2*nbMass,0.,2.);
+ fHistPiAPMassVSPt[0] = new TH2F("fHistPiAPMassVSPt","p-pi+ InvMass distribution",nbMass,1.05,1.25,300,0.0,30.0);
+ fHistPiAPMassVSPtMCTruth[0] = new TH2F("fHistPiAPMassVSPtMCTruth","p-pi+ InvMass distribution vs pt MCTruth",nbMass,1.05,1.25,300,0.0,30.0);
+ fHistPiAPPtVSY[0] = new TH2F("fHistPiAPPtVSY","p{t} vs y",100,-1,1,100,0.0,20);
+ fHistPiAPDecayLengthVsPt[0] = new TH2F("fHistPiAPDecayLengthVsPt","#bar{#Lambda} decay length vs pt",200,0.0,20.0,200,0.0,100.0);
+ fHistPiAPMonitorCuts[0] = new TH1F("fHistPiAPMonitorCuts","#bar{#Lambda} cut monitor",25,0.5,25.5);
+ if(mchist==2){// for MC reco
+ fHistV0RadiusZ[1] = new TH2F("fHistV0RadiusZSec","z of decay radius vs 2D radius",100,0.0,100.0,250,-125.0,125.0);
+ fHistV0RadiusZVSPt[1] = new TH2F("fHistV0RadiusZVSPtSec","z of decay radius vs pt radius",200,0.0,20.0,125,0.0,125.0);
+ fHistV0RadiusXY[1] = new TH2F("fHistV0RadiusXYSec","y vs x decay radius",250,-125.0,125.0,250,-125.0,125.0);
+ fHistV0RadiusXYVSY[1] = new TH2F("fHistV0RadiusXYVSYSec","2D decay radius vs rap",100,-10,10,100,0.0,100.0);
+ fHistArmenteros[1] = new TH2F("fHistArmenterosSec"," pi+pi- armenteros",nbMass,-1.,1.,500,0.,0.5);
+
+ //***************************************** K0s **********************************//
+ fHistPiPiMass[1] = new TH1F("fHistPiPiMassSec"," pi+pi- InvMass distribution",2*nbMass,0.,2.);
+ fHistPiPiMassVSPt[1] = new TH2F("fHistPiPiMassVSPtSec","pi+pi- InvMass distribution",nbMass,0.25,0.75,300,0.0,30.0);
+ fHistPiPiMassVSPtMCTruth[1] = new TH2F("fHistPiPiMassVSPtMCTruthSec","pi+pi- InvMass distribution vs pt MCTruth",nbMass,0.25,0.75,300,0.0,30.0);
+ fHistPiPiPtVSY[1] = new TH2F("fHistPiPiPtVSYSec","p{t} vs y",100,-1,1,100,0.0,20);
+ fHistPiPiDecayLengthVsPt[1] = new TH2F("fHistPiPiDecayLengthVsPt","K0 decay length vs pt",200,0.0,20.0,200,0.0,100.0);
+
+ fHistPiPiMonitorCuts[1] = new TH1F("fHistPiPiMonitorCutsSec","K0 cut monitor",25,0.5,25.5);
+ //***************************************** Lambda **********************************//
+ fHistPiPMass[1] = new TH1F("fHistPiPMassSec"," p+pi- InvMass distribution",2*nbMass,0.,2.);
+ fHistPiPMassVSPt[1] = new TH2F("fHistPiPMassVSPtSec","p+pi- InvMass distribution",nbMass,1.05,1.25,300,0.0,30.0);
+ fHistPiPMassVSPtMCTruth[1] = new TH2F("fHistPiPMassVSPtMCTruthSec","p+pi- InvMass distribution vs pt MCTruth",nbMass,1.05,1.25,300,0.0,30.0);
+ fHistPiPPtVSY[1] = new TH2F("fHistPiPPtVSYSec","p{t} vs y",100,-1,1,100,0.0,20);
+ fHistPiPDecayLengthVsPt[1] = new TH2F("fHistPiPDecayLengthVsPtSec","#Lambda decay length vs pt",200,0.0,20.0,200,0.0,100.0);
+
+ fHistPiPMonitorCuts[1] = new TH1F("fHistPiPMonitorCutsSec","#Lambda cut monitor",25,0.5,25.5);
+ //***************************************** AntiLambda **********************************//
+ fHistPiAPMass[1] = new TH1F("fHistPiAPMassSec"," ap-pi+ InvMass distribution",2*nbMass,0.,2.);
+ fHistPiAPMassVSPt[1] = new TH2F("fHistPiAPMassVSPtSec","p-pi+ InvMass distribution",nbMass,1.05,1.25,300,0.0,30.0);
+ fHistPiAPMassVSPtMCTruth[1] = new TH2F("fHistPiAPMassVSPtMCTruthSec","p-pi+ InvMass distribution vs pt MCTruth",nbMass,1.05,1.25,300,0.0,30.0);
+ fHistPiAPPtVSY[1] = new TH2F("fHistPiAPPtVSYSec","p{t} vs y",100,-1,1,100,0.0,20);
+ fHistPiAPDecayLengthVsPt[1] = new TH2F("fHistPiAPDecayLengthVsPtSec","#bar{#Lambda} decay length vs pt",200,0.0,20.0,200,0.0,100.0);
+ fHistPiAPMonitorCuts[1] = new TH1F("fHistPiAPMonitorCutsSec","#bar{#Lambda} cut monitor",25,0.5,25.5);
+ }
+
+ for(Int_t j=0;j<mchist;j++){
- }
-
- for(Int_t j=0;j<mchist;j++){
-
- fOutputContainer->Add(fHistArmenteros[j]);
- fOutputContainer->Add(fHistV0RadiusZ[j]);
- fOutputContainer->Add(fHistV0RadiusZVSPt[j]);
- fOutputContainer->Add(fHistV0RadiusXY[j]);
- fOutputContainer->Add(fHistV0RadiusXYVSY[j]);
+ fOutputContainer->Add(fHistArmenteros[j]);
+ fOutputContainer->Add(fHistV0RadiusZ[j]);
+ fOutputContainer->Add(fHistV0RadiusZVSPt[j]);
+ fOutputContainer->Add(fHistV0RadiusXY[j]);
+ fOutputContainer->Add(fHistV0RadiusXYVSY[j]);
- fOutputContainer->Add(fHistPiPiMass[j]);
- fOutputContainer->Add(fHistPiPMass[j]);
- fOutputContainer->Add(fHistPiAPMass[j]);
+ fOutputContainer->Add(fHistPiPiMass[j]);
+ fOutputContainer->Add(fHistPiPMass[j]);
+ fOutputContainer->Add(fHistPiAPMass[j]);
- fOutputContainer->Add(fHistPiPiMassVSPt[j]);
- fOutputContainer->Add(fHistPiPMassVSPt[j]);
- fOutputContainer->Add(fHistPiAPMassVSPt[j]);
+ fOutputContainer->Add(fHistPiPiMassVSPt[j]);
+ fOutputContainer->Add(fHistPiPMassVSPt[j]);
+ fOutputContainer->Add(fHistPiAPMassVSPt[j]);
- fOutputContainer->Add(fHistPiPiMassVSPtMCTruth[j]);
- fOutputContainer->Add(fHistPiPMassVSPtMCTruth[j]);
- fOutputContainer->Add(fHistPiAPMassVSPtMCTruth[j]);
+ fOutputContainer->Add(fHistPiPiMassVSPtMCTruth[j]);
+ fOutputContainer->Add(fHistPiPMassVSPtMCTruth[j]);
+ fOutputContainer->Add(fHistPiAPMassVSPtMCTruth[j]);
- fOutputContainer->Add(fHistPiPiPtVSY[j]);
- fOutputContainer->Add(fHistPiPPtVSY[j]);
- fOutputContainer->Add(fHistPiAPPtVSY[j]);
+ fOutputContainer->Add(fHistPiPiPtVSY[j]);
+ fOutputContainer->Add(fHistPiPPtVSY[j]);
+ fOutputContainer->Add(fHistPiAPPtVSY[j]);
- fOutputContainer->Add(fHistPiPiDecayLengthVsPt[j]);
- fOutputContainer->Add(fHistPiPDecayLengthVsPt[j]);
- fOutputContainer->Add(fHistPiAPDecayLengthVsPt[j]);
- }
+ fOutputContainer->Add(fHistPiPiDecayLengthVsPt[j]);
+ fOutputContainer->Add(fHistPiPDecayLengthVsPt[j]);
+ fOutputContainer->Add(fHistPiAPDecayLengthVsPt[j]);
+
+ fOutputContainer->Add(fHistPiPiMonitorCuts[j]);
+ fOutputContainer->Add(fHistPiPMonitorCuts[j]);
+ fOutputContainer->Add(fHistPiAPMonitorCuts[j]);
+ }
- //----------------- for reco or data or mc data like MC reco only -----------------//
- if((fMCMode) || (!fMCTruthMode && !fMCMode)){
+ //----------------- for reco or data or mc data like MC reco only -----------------//
+ if((fMCMode) || (!fMCTruthMode && !fMCMode)){
- fHistPiPiEtaDReco[0] = new TH2F("fHistPiPiEtaDRecoRaw","K0s daughters eta raw",300,-6,6,100,0,20);
- fOutputContainer->Add(fHistPiPiEtaDReco[0]);
- fHistPiPiEtaDReco[1] = new TH2F("fHistPiPiEtaDReco","K0s daughters eta after rap V0 cut pos",300,-3,3,300,-3.00,3.0);
- fOutputContainer->Add(fHistPiPiEtaDReco[1]);
- fHistPiPEtaDReco[0] = new TH2F("fHistPiPEtaDRecoRaw","#Lambda daughters eta raw",300,-6,6,100,0,20);
- fOutputContainer->Add(fHistPiPEtaDReco[0]);
- fHistPiPEtaDReco[1] = new TH2F("fHistPiPEtaDReco","#Lambda daughters eta after rap V0 cut neg",300,-3,3,300,-3.00,3.0);
- fOutputContainer->Add(fHistPiPEtaDReco[1]);
+ fHistPiPiEtaDReco[0] = new TH2F("fHistPiPiEtaDRecoRaw","K0s daughters eta raw",300,-6,6,100,0,20);
+ fOutputContainer->Add(fHistPiPiEtaDReco[0]);
+ fHistPiPiEtaDReco[1] = new TH2F("fHistPiPiEtaDReco","K0s daughters eta after rap V0 cut pos",300,-3,3,300,-3.00,3.0);
+ fOutputContainer->Add(fHistPiPiEtaDReco[1]);
+ fHistPiPEtaDReco[0] = new TH2F("fHistPiPEtaDRecoRaw","#Lambda daughters eta raw",300,-6,6,100,0,20);
+ fOutputContainer->Add(fHistPiPEtaDReco[0]);
+ fHistPiPEtaDReco[1] = new TH2F("fHistPiPEtaDReco","#Lambda daughters eta after rap V0 cut neg",300,-3,3,300,-3.00,3.0);
+ fOutputContainer->Add(fHistPiPEtaDReco[1]);
- //********************************************** K0 *************************************************//
+ //********************************************** K0 *************************************************//
- // fHistPiPiMassVSAlpha[0] = new TH2F("fHistPiPiMassVSAlpha"," alpha armenteros vs pi+pi- InvMass distribution",nbMass,0.25,0.75,500,-1.,1.);
-
- fHistPiPiDCADaughters[0] = new TH2F("fHistPiPiDCADaughters","dca of K0 daughters",nbMass,0.25,0.75,250,0.0,2);
- fHistPiPiDCADaughterPosToPrimVtxVSMass[0] = new TH2F("fHistPiPiDCADaughterPosToPrimVtxVSMass","pi+ DCA daughter to prim vtx vsinvmass",nbMass,0.25,0.75,250,0.0,25.0);
- fHistPiPiDCAVSMass[0] = new TH2F("fHistPiPiDCAVSMass","pi+pi- dca vs pt",nbMass,0.25,0.75,250,0.0,5.0);
- fHistPiPiCosPointAng[0] = new TH2F("fHistPiPiCosPointAng","K0 cosine of pointing angle vs dca to prim vtx",200,0.0,10.0,250,0.99,1.00);
- fHistPiPiDecayLengthVsMass[0] = new TH2F("fHistPiPiDecayLengthVsMass","K0 decay length vs mass",nbMass,0.25,0.75,200,0.0,100.0);
- fHistPiPiRadiusXY[0] = new TH2F("fHistPiPiRadiusXY","pi+pi- opening angle vs mass",nbMass,0.25,0.75,200,0.0,4.0);
- // fHistPiPiPtDaughters[0] = new TH2F("fHistPiPiPtDaughters","p_{t} pos vs p_{t} neg of daughters",400,0.0,20.0,400,0,20.0);
- fHistPiPiMonitorCuts[0] = new TH1F("fHistPiPiMonitorCuts","K0 cut monitor",25,0.5,25.5);
+ // fHistPiPiMassVSAlpha[0] = new TH2F("fHistPiPiMassVSAlpha"," alpha armenteros vs pi+pi- InvMass distribution",nbMass,0.25,0.75,500,-1.,1.);
+
+ fHistPiPiDCADaughters[0] = new TH2F("fHistPiPiDCADaughters","dca of K0 daughters",nbMass,0.25,0.75,250,0.0,2);
+ fHistPiPiDCADaughterPosToPrimVtxVSMass[0] = new TH2F("fHistPiPiDCADaughterPosToPrimVtxVSMass","pi+ DCA daughter to prim vtx vsinvmass",nbMass,0.25,0.75,250,0.0,25.0);
+ fHistPiPiDCAVSMass[0] = new TH2F("fHistPiPiDCAVSMass","pi+pi- dca vs pt",nbMass,0.25,0.75,250,0.0,5.0);
+ fHistPiPiCosPointAng[0] = new TH2F("fHistPiPiCosPointAng","K0 cosine of pointing angle vs dca to prim vtx",200,0.0,10.0,250,0.99,1.00);
+ fHistPiPiDecayLengthVsMass[0] = new TH2F("fHistPiPiDecayLengthVsMass","K0 decay length vs mass",nbMass,0.25,0.75,200,0.0,100.0);
+ fHistPiPiRadiusXY[0] = new TH2F("fHistPiPiRadiusXY","pi+pi- opening angle vs mass",nbMass,0.25,0.75,200,0.0,4.0);
+ // fHistPiPiPtDaughters[0] = new TH2F("fHistPiPiPtDaughters","p_{t} pos vs p_{t} neg of daughters",400,0.0,20.0,400,0,20.0);
+
- //***************************************** Lambda *********************************************//
- fHistPiPDCADaughters[0] = new TH2F("fHistPiPDCADaughters","dca of #Lambda daughters",nbMass,1.05,1.25,250,0.0,2.0);
- fHistPiPDCADaughterPosToPrimVtxVSMass[0] = new TH2F("fHistPiPDCADaughterPosToPrimVtxVSMass","p DCA daughter to prim vtx vs invmass",nbMass,1.05,1.25,250,0.0,25.0);
- fHistPiPDCAVSMass[0] = new TH2F("fHistPiPDCAVSMass","ppi- dca vs pt",nbMass,1.05,1.25,250,0.0,5.0);
- fHistPiPCosPointAng[0] = new TH2F("fHistPiPCosPointAng","#Lambda cosine of pointing angle vs dca to prim vtx",200,0.0,10.0,250,0.99,1.00);
- fHistPiPDecayLengthVsMass[0] = new TH2F("fHistPiPDecayLengthVsMass","#Lambda decay length vs mass",nbMass,1.05,1.25,200,0.0,100.0);
- fHistPiPRadiusXY[0] = new TH2F("fHistPiPRadiusXY","pi-p+ opening angle vs mass",nbMass,1.05,1.25,200,0.0,4.0);
- // fHistPiPPtDaughters[0] = new TH2F("fHistPiPPtDaughters","p_{t} pos vs p_{t} neg of daughters",400,0.0,20.0,400,0,20.0);
- fHistPiPMonitorCuts[0] = new TH1F("fHistPiPMonitorCuts","#Lambda cut monitor",25,0.5,25.5);
-
- //************************************** Antilambda **********************************************//
- fHistPiAPDCADaughters[0] = new TH2F("fHistPiAPDCADaughters","dca of #bar{#Lambda} daughters",nbMass,1.05,1.25,250,0.0,2.0);
- fHistPiAPDCADaughterPosToPrimVtxVSMass[0] = new TH2F("fHistPiAPDCADaughterPosToPrimVtxVSMass","pi+ DCA daughter to prim vtx vs invmass",nbMass,1.05,1.25,250,0.0,25.0);
- fHistPiAPDCAVSMass[0] = new TH2F("fHistPiAPDCAVSMass","pi+p- dca vs pt",nbMass,1.05,1.25,250,0.0,5.0);
- fHistPiAPCosPointAng [0] = new TH2F("fHistPiAPCosPointAng","#bar{#Lambda} cosine of pointing angle vs dcs to prim vtx",200,0.0,10.0,250,0.99,1.00);
- fHistPiAPDecayLengthVsMass[0] = new TH2F("fHistPiAPDecayLengthVsMass","#bar{#Lambda} decay length vs mass",nbMass,1.05,1.25,200,0.0,100.0);
- fHistPiAPRadiusXY[0] = new TH2F("fHistPiAPRadiusXY","pi+p- opening angle vs mass",nbMass,1.05,1.25,200,0.0,4.0);
- fHistPiAPMonitorCuts[0] = new TH1F("fHistPiAPMonitorCuts","#bar{#Lambda} cut monitor",25,0.5,25.5);
- // fHistPiAPPtDaughters[0] = new TH2F("fHistPiAPPtDaughters","p_{t} pos vs p_{t} neg of daughters",400,0.0,20.0,400,0,20.0);
+ //***************************************** Lambda *********************************************//
+ fHistPiPDCADaughters[0] = new TH2F("fHistPiPDCADaughters","dca of #Lambda daughters",nbMass,1.05,1.25,250,0.0,2.0);
+ fHistPiPDCADaughterPosToPrimVtxVSMass[0] = new TH2F("fHistPiPDCADaughterPosToPrimVtxVSMass","p DCA daughter to prim vtx vs invmass",nbMass,1.05,1.25,250,0.0,25.0);
+ fHistPiPDCAVSMass[0] = new TH2F("fHistPiPDCAVSMass","ppi- dca vs pt",nbMass,1.05,1.25,250,0.0,5.0);
+ fHistPiPCosPointAng[0] = new TH2F("fHistPiPCosPointAng","#Lambda cosine of pointing angle vs dca to prim vtx",200,0.0,10.0,250,0.99,1.00);
+ fHistPiPDecayLengthVsMass[0] = new TH2F("fHistPiPDecayLengthVsMass","#Lambda decay length vs mass",nbMass,1.05,1.25,200,0.0,100.0);
+ fHistPiPRadiusXY[0] = new TH2F("fHistPiPRadiusXY","pi-p+ opening angle vs mass",nbMass,1.05,1.25,200,0.0,4.0);
+ // fHistPiPPtDaughters[0] = new TH2F("fHistPiPPtDaughters","p_{t} pos vs p_{t} neg of daughters",400,0.0,20.0,400,0,20.0);
+
+ //************************************** Antilambda **********************************************//
+ fHistPiAPDCADaughters[0] = new TH2F("fHistPiAPDCADaughters","dca of #bar{#Lambda} daughters",nbMass,1.05,1.25,250,0.0,2.0);
+ fHistPiAPDCADaughterPosToPrimVtxVSMass[0] = new TH2F("fHistPiAPDCADaughterPosToPrimVtxVSMass","pi+ DCA daughter to prim vtx vs invmass",nbMass,1.05,1.25,250,0.0,25.0);
+ fHistPiAPDCAVSMass[0] = new TH2F("fHistPiAPDCAVSMass","pi+p- dca vs pt",nbMass,1.05,1.25,250,0.0,5.0);
+ fHistPiAPCosPointAng [0] = new TH2F("fHistPiAPCosPointAng","#bar{#Lambda} cosine of pointing angle vs dcs to prim vtx",200,0.0,10.0,250,0.99,1.00);
+ fHistPiAPDecayLengthVsMass[0] = new TH2F("fHistPiAPDecayLengthVsMass","#bar{#Lambda} decay length vs mass",nbMass,1.05,1.25,200,0.0,100.0);
+ fHistPiAPRadiusXY[0] = new TH2F("fHistPiAPRadiusXY","pi+p- opening angle vs mass",nbMass,1.05,1.25,200,0.0,4.0);
+
+ // fHistPiAPPtDaughters[0] = new TH2F("fHistPiAPPtDaughters","p_{t} pos vs p_{t} neg of daughters",400,0.0,20.0,400,0,20.0);
- //**********************************************TPC*****************************************************//
-
- fHistDedxSecProt[0] = new TH2F("fHistDedxSecProt","proton", nbPt, 0, 20, 100, 0, 400);
- fHistDedxSecPiPlus[0] = new TH2F("fHistDedxSecPiPlus","pi plus", nbPt, 0, 20, 100, 0, 400);
- fHistDedxSecAProt[0] = new TH2F("fHistDedxSecAProt","antiproton", nbPt, 0, 20, 100, 0, 400);
- fHistDedxSecPiMinus[0] = new TH2F("fHistDedxSecPiMinus","pi minus", nbPt, 0, 20, 100, 0, 400);
- fHistNclsITSPosK0[0] = new TH1F("fHistNclsITSPosK0","fHistNclsITSPos K0",10,-0.5,9.5);
- fHistNclsITSNegK0[0] = new TH1F("fHistNclsITSNegK0","fHistNclsITSNeg K0",10,-0.5,9.5);
- fHistNclsTPCPosK0[0] = new TH1F("fHistNclsTPCPosK0","fHistNclsTPCPos K0",200,-0.5,199.5);
- fHistNclsTPCNegK0[0] = new TH1F("fHistNclsTPCNegK0","fHistNclsTPCNeg K0",200,-0.5,199.5);
- fHistChi2PerNclsITSPosK0[0] = new TH1F("fHistChi2PerNclsITSPosK0","chi2 per cluster ITS pi+pi-",250,0.0,50.0);
- fHistChi2PerNclsITSNegK0[0] = new TH1F("fHistChi2PerNclsITSNegK0","chi2 per cluster ITS pi+pi- neg",250,0.0,50.0);
- fHistNclsITSPosL[0] = new TH1F("fHistNclsITSPosL","fHistNclsITSPos #Lambda",10,-0.5,9.5);
- fHistNclsITSNegL[0] = new TH1F("fHistNclsITSNegL","fHistNclsITSNeg #Lambda",10,-0.5,9.5);
- fHistNclsTPCPosL[0] = new TH1F("fHistNclsTPCPosL","fHistNclsTPCPos #Lambda",200,-0.5,199.5);
- fHistNclsTPCNegL[0] = new TH1F("fHistNclsTPCNegL","fHistNclsTPCNeg #Lambda",200,-0.5,199.5);
- fHistChi2PerNclsITSPosL[0] = new TH1F("fHistChi2PerNclsITSPosL","chi2 per cluster ITS pi-p+ pos",250,0.0,50.0);
- fHistChi2PerNclsITSNegL[0] = new TH1F("fHistChi2PerNclsITSNegL","chi2 per cluster ITS pi-p+ neg",250,0.0,50.0);
- //for 2d pt dep studies
- fHistNclsITSPos[0] = new TH2F("fHistNclsITSPos","fHistNclsITSPos vs pt pos",200,0.0,20.0,10,-0.5,9.5);
- fHistNclsITSNeg[0] = new TH2F("fHistNclsITSNeg","fHistNclsITSNeg vs pt neg",200,0.0,20.0,10,-0.5,9.5);
- fHistNclsTPCPos[0] = new TH2F("fHistNclsTPCPos","ncls vs findable ncls pos",200,0.0,200.0,200,0.0,200.0);
- fHistNclsTPCNeg[0] = new TH2F("fHistNclsTPCNeg","ncls vs findable ncls neg",200,0.0,200.0,200,0.0,200.0);
- fHistChi2PerNclsITSPos[0] = new TH2F("fHistChi2PerNclsITSPos","chi2 per cluster ITS pi+p-vs pt pos",200,0.0,20.0,250,0.0,50.0);
- fHistChi2PerNclsITSNeg[0] = new TH2F("fHistChi2PerNclsITSNeg","chi2 per cluster ITS pi+p- neg vs pt neg",200,0.0,20.0,250,0.0,50.0);
- fHistNclsITS[0] = new TH2F("fHistNclsITS","fHistNclsITS pos vs neg",10,-0.5,9.5,10,-0.5,9.5);
- fHistNclsTPC[0] = new TH2F("fHistNclsTPC","ncls TPC neg vs crossed rows neg",200,-0.5,199.5,200,-0.5,199.5);
- fHistNCRowsTPCPos[0] = new TH2F("fHistNCRowsTPCPos","n crossed rows vs pt pos",200,0.0,20.0,200,0.0,200.0);
- fHistNCRowsTPCNeg[0] = new TH2F("fHistNCRowsTPCNeg","n crossed rows vs pt neg",200,0.0,20.0,200,0.0,200.0);
+ //**********************************************TPC*****************************************************//
+
+ fHistDedxSecProt[0] = new TH2F("fHistDedxSecProt","proton", nbPt, 0, 20, 100, 0, 400);
+ fHistDedxSecPiPlus[0] = new TH2F("fHistDedxSecPiPlus","pi plus", nbPt, 0, 20, 100, 0, 400);
+ fHistDedxSecAProt[0] = new TH2F("fHistDedxSecAProt","antiproton", nbPt, 0, 20, 100, 0, 400);
+ fHistDedxSecPiMinus[0] = new TH2F("fHistDedxSecPiMinus","pi minus", nbPt, 0, 20, 100, 0, 400);
+ fHistNclsITSPosK0[0] = new TH1F("fHistNclsITSPosK0","fHistNclsITSPos K0",10,-0.5,9.5);
+ fHistNclsITSNegK0[0] = new TH1F("fHistNclsITSNegK0","fHistNclsITSNeg K0",10,-0.5,9.5);
+ fHistNclsTPCPosK0[0] = new TH1F("fHistNclsTPCPosK0","fHistNclsTPCPos K0",200,-0.5,199.5);
+ fHistNclsTPCNegK0[0] = new TH1F("fHistNclsTPCNegK0","fHistNclsTPCNeg K0",200,-0.5,199.5);
+ fHistChi2PerNclsITSPosK0[0] = new TH1F("fHistChi2PerNclsITSPosK0","chi2 per cluster ITS pi+pi-",250,0.0,50.0);
+ fHistChi2PerNclsITSNegK0[0] = new TH1F("fHistChi2PerNclsITSNegK0","chi2 per cluster ITS pi+pi- neg",250,0.0,50.0);
+ fHistNclsITSPosL[0] = new TH1F("fHistNclsITSPosL","fHistNclsITSPos #Lambda",10,-0.5,9.5);
+ fHistNclsITSNegL[0] = new TH1F("fHistNclsITSNegL","fHistNclsITSNeg #Lambda",10,-0.5,9.5);
+ fHistNclsTPCPosL[0] = new TH1F("fHistNclsTPCPosL","fHistNclsTPCPos #Lambda",200,-0.5,199.5);
+ fHistNclsTPCNegL[0] = new TH1F("fHistNclsTPCNegL","fHistNclsTPCNeg #Lambda",200,-0.5,199.5);
+ fHistChi2PerNclsITSPosL[0] = new TH1F("fHistChi2PerNclsITSPosL","chi2 per cluster ITS pi-p+ pos",250,0.0,50.0);
+ fHistChi2PerNclsITSNegL[0] = new TH1F("fHistChi2PerNclsITSNegL","chi2 per cluster ITS pi-p+ neg",250,0.0,50.0);
+ //for 2d pt dep studies
+ fHistNclsITSPos[0] = new TH2F("fHistNclsITSPos","fHistNclsITSPos vs pt pos",200,0.0,20.0,10,-0.5,9.5);
+ fHistNclsITSNeg[0] = new TH2F("fHistNclsITSNeg","fHistNclsITSNeg vs pt neg",200,0.0,20.0,10,-0.5,9.5);
+ fHistNclsTPCPos[0] = new TH2F("fHistNclsTPCPos","ncls vs findable ncls pos",200,0.0,200.0,200,0.0,200.0);
+ fHistNclsTPCNeg[0] = new TH2F("fHistNclsTPCNeg","ncls vs findable ncls neg",200,0.0,200.0,200,0.0,200.0);
+ fHistChi2PerNclsITSPos[0] = new TH2F("fHistChi2PerNclsITSPos","chi2 per cluster ITS pi+p-vs pt pos",200,0.0,20.0,250,0.0,50.0);
+ fHistChi2PerNclsITSNeg[0] = new TH2F("fHistChi2PerNclsITSNeg","chi2 per cluster ITS pi+p- neg vs pt neg",200,0.0,20.0,250,0.0,50.0);
+ fHistNclsITS[0] = new TH2F("fHistNclsITS","fHistNclsITS pos vs neg",10,-0.5,9.5,10,-0.5,9.5);
+ fHistNclsTPC[0] = new TH2F("fHistNclsTPC","ncls TPC neg vs crossed rows neg",200,-0.5,199.5,200,-0.5,199.5);
+ fHistNCRowsTPCPos[0] = new TH2F("fHistNCRowsTPCPos","n crossed rows vs pt pos",200,0.0,20.0,200,0.0,200.0);
+ fHistNCRowsTPCNeg[0] = new TH2F("fHistNCRowsTPCNeg","n crossed rows vs pt neg",200,0.0,20.0,200,0.0,200.0);
- if(mchist==2){// for MC reco
-
- //********************************************** K0 *************************************************//
- // fHistPiPiMassVSAlpha[0] = new TH2F("fHistPiPiMassVSAlpha"," alpha armenteros vs pi+pi- InvMass distribution",nbMass,0.25,0.75,500,-1.,1.);
- fHistPiPiDCADaughters[1] = new TH2F("fHistPiPiDCADaughtersSec","dca of K0 daughters",nbMass,0.25,0.75,250,0.0,2);
- fHistPiPiDCADaughterPosToPrimVtxVSMass[1] = new TH2F("fHistPiPiDCADaughterPosToPrimVtxVSMassSec","pi+ DCA daughter to prim vtx vsinvmass",nbMass,0.25,0.75,250,0.0,25.0);
- fHistPiPiDCAVSMass[1] = new TH2F("fHistPiPiDCAVSMassSec","pi+pi- dca vs pt",nbMass,0.25,0.75,250,0.0,5.0);
- fHistPiPiCosPointAng[1] = new TH2F("fHistPiPiCosPointAngSec","K0 cosine of pointing angle vs dca to prim vtx",200,0.0,10.0,250,0.99,1.00);
- fHistPiPiDecayLengthVsMass[1] = new TH2F("fHistPiPiDecayLengthVsMassSec","K0 decay length vs mass",nbMass,0.25,0.75,200,0.0,100.0);
- fHistPiPiRadiusXY[1] = new TH2F("fHistPiPiRadiusXYSec","pi+pi- opening angle vs mass",nbMass,0.25,0.75,200,0.0,4.0);
- // fHistPiPiPtDaughters[0] = new TH2F("fHistPiPiPtDaughters","p_{t} pos vs p_{t} neg of daughters",400,0.0,20.0,400,0,20.0);
- fHistPiPiMonitorCuts[1] = new TH1F("fHistPiPiMonitorCutsSec","K0 cut monitor",25,0.5,25.5);
+ if(mchist==2){// for MC reco
+
+ //********************************************** K0 *************************************************//
+ // fHistPiPiMassVSAlpha[0] = new TH2F("fHistPiPiMassVSAlpha"," alpha armenteros vs pi+pi- InvMass distribution",nbMass,0.25,0.75,500,-1.,1.);
+ fHistPiPiDCADaughters[1] = new TH2F("fHistPiPiDCADaughtersSec","dca of K0 daughters",nbMass,0.25,0.75,250,0.0,2);
+ fHistPiPiDCADaughterPosToPrimVtxVSMass[1] = new TH2F("fHistPiPiDCADaughterPosToPrimVtxVSMassSec","pi+ DCA daughter to prim vtx vsinvmass",nbMass,0.25,0.75,250,0.0,25.0);
+ fHistPiPiDCAVSMass[1] = new TH2F("fHistPiPiDCAVSMassSec","pi+pi- dca vs pt",nbMass,0.25,0.75,250,0.0,5.0);
+ fHistPiPiCosPointAng[1] = new TH2F("fHistPiPiCosPointAngSec","K0 cosine of pointing angle vs dca to prim vtx",200,0.0,10.0,250,0.99,1.00);
+ fHistPiPiDecayLengthVsMass[1] = new TH2F("fHistPiPiDecayLengthVsMassSec","K0 decay length vs mass",nbMass,0.25,0.75,200,0.0,100.0);
+ fHistPiPiRadiusXY[1] = new TH2F("fHistPiPiRadiusXYSec","pi+pi- opening angle vs mass",nbMass,0.25,0.75,200,0.0,4.0);
+ // fHistPiPiPtDaughters[0] = new TH2F("fHistPiPiPtDaughters","p_{t} pos vs p_{t} neg of daughters",400,0.0,20.0,400,0,20.0);
+
- //********************************************** Lambda ***********************************************//
- fHistPiPDCADaughters[1] = new TH2F("fHistPiPDCADaughtersSec","dca of #Lambda daughters",nbMass,1.05,1.25,250,0.0,2.0);
- fHistPiPDCADaughterPosToPrimVtxVSMass[1] = new TH2F("fHistPiPDCADaughterPosToPrimVtxVSMassSec","p DCA daughter to prim vtx vs invmass",nbMass,1.05,1.25,250,0.0,25.0);
- fHistPiPDCAVSMass[1] = new TH2F("fHistPiPDCAVSMassSec","ppi- dca vs pt",nbMass,1.05,1.25,250,0.0,5.0);
- fHistPiPCosPointAng[1] = new TH2F("fHistPiPCosPointAngSec","#Lambda cosine of pointing angle vs dca to prim vtx",200,0.0,10.0,250,0.99,1.00);
- fHistPiPDecayLengthVsMass[1] = new TH2F("fHistPiPDecayLengthVsMassSec","#Lambda decay length vs mass",nbMass,1.05,1.25,200,0.0,100.0);
- fHistPiPRadiusXY[1] = new TH2F("fHistPiPRadiusXYSec","pi-p+ opening angle vs mass",nbMass,1.05,1.25,200,0.0,4.0);
- // fHistPiPPtDaughters[0] = new TH2F("fHistPiPPtDaughters","p_{t} pos vs p_{t} neg of daughters",400,0.0,20.0,400,0,20.0);
- fHistPiPMonitorCuts[1] = new TH1F("fHistPiPMonitorCutsSec","#Lambda cut monitor",25,0.5,25.5);
-
- //******************************************* Antilambda **********************************************//
- fHistPiAPDCADaughters[1] = new TH2F("fHistPiAPDCADaughtersSec","dca of #bar{#Lambda} daughters",nbMass,1.05,1.25,250,0.0,2.0);
- fHistPiAPDCADaughterPosToPrimVtxVSMass[1] = new TH2F("fHistPiAPDCADaughterPosToPrimVtxVSMassSec","pi+ DCA daughter to prim vtx vs invmass",nbMass,1.05,1.25,250,0.0,25.0);
- fHistPiAPDCAVSMass[1] = new TH2F("fHistPiAPDCAVSMassSec","pi+p- dca vs pt",nbMass,1.05,1.25,250,0.0,5.0);
- fHistPiAPCosPointAng[1] = new TH2F("fHistPiAPCosPointAngSec","#bar{#Lambda} cosine of pointing angle vs dcs to prim vtx",200,0.0,10.0,250,0.99,1.00);
- fHistPiAPDecayLengthVsMass[1] = new TH2F("fHistPiAPDecayLengthVsMassSec","#bar{#Lambda} decay length vs mass",nbMass,1.05,1.25,200,0.0,100.0);
- fHistPiAPRadiusXY[1] = new TH2F("fHistPiAPRadiusXYSec","pi+p- opening angle vs mass",nbMass,1.05,1.25,200,0.0,4.0);
- fHistPiAPMonitorCuts[1] = new TH1F("fHistPiAPMonitorCutsSec","#bar{#Lambda} cut monitor",25,0.5,25.5);
- // fHistPiAPPtDaughters[0] = new TH2F("fHistPiAPPtDaughters","p_{t} pos vs p_{t} neg of daughters",400,0.0,20.0,400,0,20.0);
-
- //******************************************* TPC ****************************************************//
-
- fHistDedxSecProt[1] = new TH2F("fHistDedxSecProtSec","proton", nbPt, 0, 20, 100, 0, 400);
- fHistDedxSecPiPlus[1] = new TH2F("fHistDedxSecPiPlusSec","pi plus", nbPt, 0, 20, 100, 0, 400);
- fHistDedxSecAProt[1] = new TH2F("fHistDedxSecAProtSec","antiproton", nbPt, 0, 20, 100, 0, 400);
- fHistDedxSecPiMinus[1] = new TH2F("fHistDedxSecPiMinusSec","pi minus", nbPt, 0, 20, 100, 0, 400);
- fHistNclsITSPosK0[1] = new TH1F("fHistNclsITSPosK0Sec","fHistNclsITSPos K0 ",10,-0.5,9.5);
- fHistNclsITSNegK0[1] = new TH1F("fHistNclsITSNegK0Sec","fHistNclsITSNeg K0",10,-0.5,9.5);
- fHistNclsTPCPosK0[1] = new TH1F("fHistNclsTPCPosK0Sec","fHistNclsTPCPos K0",200,-0.5,199.5);
- fHistNclsTPCNegK0[1] = new TH1F("fHistNclsTPCNegK0Sec","fHistNclsTPCNeg K0",200,-0.5,199.5);
- fHistChi2PerNclsITSPosK0[1] = new TH1F("fHistChi2PerNclsITSPosK0Sec","chi2 per cluster ITS pi+pi- pos",250,0.0,50.0);
- fHistChi2PerNclsITSNegK0[1] = new TH1F("fHistChi2PerNclsITSNegK0Sec","chi2 per cluster ITS pi+pi- neg",250,0.0,50.0);
- fHistNclsITSPosL[1] = new TH1F("fHistNclsITSPosLSec","fHistNclsITSPos #Lambda",10,-0.5,9.5);
- fHistNclsITSNegL[1] = new TH1F("fHistNclsITSNegLSec","fHistNclsITSNeg #Lambda",10,-0.5,9.5);
- fHistNclsTPCPosL[1] = new TH1F("fHistNclsTPCPosLSec","fHistNclsTPCPos #Lambda",200,-0.5,199.5);
- fHistNclsTPCNegL[1] = new TH1F("fHistNclsTPCNegLSec","fHistNclsTPCNeg #Lambda",200,-0.5,199.5);
- fHistChi2PerNclsITSPosL[1] = new TH1F("fHistChi2PerNclsITSPosLSec","chi2 per cluster ITS pi-p+ pos",250,0.0,50.0);
- fHistChi2PerNclsITSNegL[1] = new TH1F("fHistChi2PerNclsITSNegLSec","chi2 per cluster ITS pi-p+ neg",250,0.0,50.0);
- //for 2d pt dep studies
- fHistNclsITSPos[1] = new TH2F("fHistNclsITSPosSec","fHistNclsITSPos vs pt pos",200,0.0,20.0,10,-0.5,9.5);
- fHistNclsITSNeg[1] = new TH2F("fHistNclsITSNegSec","fHistNclsITSNeg vs pt neg",200,0.0,20.0,10,-0.5,9.5);
- fHistNclsTPCPos[1] = new TH2F("fHistNclsTPCPosSec","ncls vs findable ncls pos",200,0.0,200.0,200,0.0,200.0);
- fHistNclsTPCNeg[1] = new TH2F("fHistNclsTPCNegSec","ncls vs findable ncls neg",200,0.0,200.0,200,0.0,200.0);
- fHistChi2PerNclsITSPos[1] = new TH2F("fHistChi2PerNclsITSPosSec","chi2 per cluster ITS pi+p-vs pt pos",200,0.0,20.0,250,0.0,50.0);
- fHistChi2PerNclsITSNeg[1] = new TH2F("fHistChi2PerNclsITSNegSec","chi2 per cluster ITS pi+p- neg vs pt neg",200,0.0,20.0,250,0.0,50.0);
- fHistNclsITS[1] = new TH2F("fHistNclsITSSec","fHistNclsITS pos vs neg",10,-0.5,9.5,10,-0.5,9.5);
- fHistNclsTPC[1] = new TH2F("fHistNclsTPCSec","ncls TPC neg vs crossed rows neg",200,-0.5,199.5,200,-0.5,199.5);
- fHistNCRowsTPCPos[1] = new TH2F("fHistNCRowsTPCPosSec","n crossed rows vs pt pos",200,0.0,20.0,200,0.0,200.0);
- fHistNCRowsTPCNeg[1] = new TH2F("fHistNCRowsTPCNegSec","n crossed rows vs pt neg",200,0.0,20.0,200,0.0,200.0);
- }
+ //********************************************** Lambda ***********************************************//
+ fHistPiPDCADaughters[1] = new TH2F("fHistPiPDCADaughtersSec","dca of #Lambda daughters",nbMass,1.05,1.25,250,0.0,2.0);
+ fHistPiPDCADaughterPosToPrimVtxVSMass[1] = new TH2F("fHistPiPDCADaughterPosToPrimVtxVSMassSec","p DCA daughter to prim vtx vs invmass",nbMass,1.05,1.25,250,0.0,25.0);
+ fHistPiPDCAVSMass[1] = new TH2F("fHistPiPDCAVSMassSec","ppi- dca vs pt",nbMass,1.05,1.25,250,0.0,5.0);
+ fHistPiPCosPointAng[1] = new TH2F("fHistPiPCosPointAngSec","#Lambda cosine of pointing angle vs dca to prim vtx",200,0.0,10.0,250,0.99,1.00);
+ fHistPiPDecayLengthVsMass[1] = new TH2F("fHistPiPDecayLengthVsMassSec","#Lambda decay length vs mass",nbMass,1.05,1.25,200,0.0,100.0);
+ fHistPiPRadiusXY[1] = new TH2F("fHistPiPRadiusXYSec","pi-p+ opening angle vs mass",nbMass,1.05,1.25,200,0.0,4.0);
+ // fHistPiPPtDaughters[0] = new TH2F("fHistPiPPtDaughters","p_{t} pos vs p_{t} neg of daughters",400,0.0,20.0,400,0,20.0);
- for(Int_t j=0;j<mchist;j++){
+ //******************************************* Antilambda **********************************************//
+ fHistPiAPDCADaughters[1] = new TH2F("fHistPiAPDCADaughtersSec","dca of #bar{#Lambda} daughters",nbMass,1.05,1.25,250,0.0,2.0);
+ fHistPiAPDCADaughterPosToPrimVtxVSMass[1] = new TH2F("fHistPiAPDCADaughterPosToPrimVtxVSMassSec","pi+ DCA daughter to prim vtx vs invmass",nbMass,1.05,1.25,250,0.0,25.0);
+ fHistPiAPDCAVSMass[1] = new TH2F("fHistPiAPDCAVSMassSec","pi+p- dca vs pt",nbMass,1.05,1.25,250,0.0,5.0);
+ fHistPiAPCosPointAng[1] = new TH2F("fHistPiAPCosPointAngSec","#bar{#Lambda} cosine of pointing angle vs dcs to prim vtx",200,0.0,10.0,250,0.99,1.00);
+ fHistPiAPDecayLengthVsMass[1] = new TH2F("fHistPiAPDecayLengthVsMassSec","#bar{#Lambda} decay length vs mass",nbMass,1.05,1.25,200,0.0,100.0);
+ fHistPiAPRadiusXY[1] = new TH2F("fHistPiAPRadiusXYSec","pi+p- opening angle vs mass",nbMass,1.05,1.25,200,0.0,4.0);
- fOutputContainer->Add(fHistPiPiDCADaughters[j]);
- fOutputContainer->Add(fHistPiPDCADaughters[j]);
- fOutputContainer->Add(fHistPiAPDCADaughters[j]);
+ // fHistPiAPPtDaughters[0] = new TH2F("fHistPiAPPtDaughters","p_{t} pos vs p_{t} neg of daughters",400,0.0,20.0,400,0,20.0);
+
+ //******************************************* TPC ****************************************************//
+
+ fHistDedxSecProt[1] = new TH2F("fHistDedxSecProtSec","proton", nbPt, 0, 20, 100, 0, 400);
+ fHistDedxSecPiPlus[1] = new TH2F("fHistDedxSecPiPlusSec","pi plus", nbPt, 0, 20, 100, 0, 400);
+ fHistDedxSecAProt[1] = new TH2F("fHistDedxSecAProtSec","antiproton", nbPt, 0, 20, 100, 0, 400);
+ fHistDedxSecPiMinus[1] = new TH2F("fHistDedxSecPiMinusSec","pi minus", nbPt, 0, 20, 100, 0, 400);
+ fHistNclsITSPosK0[1] = new TH1F("fHistNclsITSPosK0Sec","fHistNclsITSPos K0 ",10,-0.5,9.5);
+ fHistNclsITSNegK0[1] = new TH1F("fHistNclsITSNegK0Sec","fHistNclsITSNeg K0",10,-0.5,9.5);
+ fHistNclsTPCPosK0[1] = new TH1F("fHistNclsTPCPosK0Sec","fHistNclsTPCPos K0",200,-0.5,199.5);
+ fHistNclsTPCNegK0[1] = new TH1F("fHistNclsTPCNegK0Sec","fHistNclsTPCNeg K0",200,-0.5,199.5);
+ fHistChi2PerNclsITSPosK0[1] = new TH1F("fHistChi2PerNclsITSPosK0Sec","chi2 per cluster ITS pi+pi- pos",250,0.0,50.0);
+ fHistChi2PerNclsITSNegK0[1] = new TH1F("fHistChi2PerNclsITSNegK0Sec","chi2 per cluster ITS pi+pi- neg",250,0.0,50.0);
+ fHistNclsITSPosL[1] = new TH1F("fHistNclsITSPosLSec","fHistNclsITSPos #Lambda",10,-0.5,9.5);
+ fHistNclsITSNegL[1] = new TH1F("fHistNclsITSNegLSec","fHistNclsITSNeg #Lambda",10,-0.5,9.5);
+ fHistNclsTPCPosL[1] = new TH1F("fHistNclsTPCPosLSec","fHistNclsTPCPos #Lambda",200,-0.5,199.5);
+ fHistNclsTPCNegL[1] = new TH1F("fHistNclsTPCNegLSec","fHistNclsTPCNeg #Lambda",200,-0.5,199.5);
+ fHistChi2PerNclsITSPosL[1] = new TH1F("fHistChi2PerNclsITSPosLSec","chi2 per cluster ITS pi-p+ pos",250,0.0,50.0);
+ fHistChi2PerNclsITSNegL[1] = new TH1F("fHistChi2PerNclsITSNegLSec","chi2 per cluster ITS pi-p+ neg",250,0.0,50.0);
+ //for 2d pt dep studies
+ fHistNclsITSPos[1] = new TH2F("fHistNclsITSPosSec","fHistNclsITSPos vs pt pos",200,0.0,20.0,10,-0.5,9.5);
+ fHistNclsITSNeg[1] = new TH2F("fHistNclsITSNegSec","fHistNclsITSNeg vs pt neg",200,0.0,20.0,10,-0.5,9.5);
+ fHistNclsTPCPos[1] = new TH2F("fHistNclsTPCPosSec","ncls vs findable ncls pos",200,0.0,200.0,200,0.0,200.0);
+ fHistNclsTPCNeg[1] = new TH2F("fHistNclsTPCNegSec","ncls vs findable ncls neg",200,0.0,200.0,200,0.0,200.0);
+ fHistChi2PerNclsITSPos[1] = new TH2F("fHistChi2PerNclsITSPosSec","chi2 per cluster ITS pi+p-vs pt pos",200,0.0,20.0,250,0.0,50.0);
+ fHistChi2PerNclsITSNeg[1] = new TH2F("fHistChi2PerNclsITSNegSec","chi2 per cluster ITS pi+p- neg vs pt neg",200,0.0,20.0,250,0.0,50.0);
+ fHistNclsITS[1] = new TH2F("fHistNclsITSSec","fHistNclsITS pos vs neg",10,-0.5,9.5,10,-0.5,9.5);
+ fHistNclsTPC[1] = new TH2F("fHistNclsTPCSec","ncls TPC neg vs crossed rows neg",200,-0.5,199.5,200,-0.5,199.5);
+ fHistNCRowsTPCPos[1] = new TH2F("fHistNCRowsTPCPosSec","n crossed rows vs pt pos",200,0.0,20.0,200,0.0,200.0);
+ fHistNCRowsTPCNeg[1] = new TH2F("fHistNCRowsTPCNegSec","n crossed rows vs pt neg",200,0.0,20.0,200,0.0,200.0);
+ }
+
+ for(Int_t j=0;j<mchist;j++){
+
+ fOutputContainer->Add(fHistPiPiDCADaughters[j]);
+ fOutputContainer->Add(fHistPiPDCADaughters[j]);
+ fOutputContainer->Add(fHistPiAPDCADaughters[j]);
- fOutputContainer->Add( fHistPiPiDCADaughterPosToPrimVtxVSMass[j]);
- fOutputContainer->Add( fHistPiPDCADaughterPosToPrimVtxVSMass[j]);
- fOutputContainer->Add( fHistPiAPDCADaughterPosToPrimVtxVSMass[j]);
+ fOutputContainer->Add( fHistPiPiDCADaughterPosToPrimVtxVSMass[j]);
+ fOutputContainer->Add( fHistPiPDCADaughterPosToPrimVtxVSMass[j]);
+ fOutputContainer->Add( fHistPiAPDCADaughterPosToPrimVtxVSMass[j]);
- /*
- fOutputContainer->Add( fHistPiPiPtDaughters[j]);
- fOutputContainer->Add( fHistPiPPtDaughters[j]);
- fOutputContainer->Add( fHistPiAPPtDaughters[j]);
- */
- fOutputContainer->Add(fHistPiPiDCAVSMass[j]);
- fOutputContainer->Add(fHistPiPDCAVSMass[j]);
- fOutputContainer->Add(fHistPiAPDCAVSMass[j]);
-
- fOutputContainer->Add(fHistPiPiCosPointAng[j]);
- fOutputContainer->Add(fHistPiPCosPointAng[j]);
- fOutputContainer->Add(fHistPiAPCosPointAng[j]);
-
- fOutputContainer->Add(fHistPiPiDecayLengthVsMass[j]);
- fOutputContainer->Add(fHistPiPDecayLengthVsMass[j]);
- fOutputContainer->Add(fHistPiAPDecayLengthVsMass[j]);
-
- fOutputContainer->Add(fHistPiPiRadiusXY[j]);
- fOutputContainer->Add(fHistPiPRadiusXY[j]);
- fOutputContainer->Add(fHistPiAPRadiusXY[j]);
+ /*
+ fOutputContainer->Add( fHistPiPiPtDaughters[j]);
+ fOutputContainer->Add( fHistPiPPtDaughters[j]);
+ fOutputContainer->Add( fHistPiAPPtDaughters[j]);
+ */
+ fOutputContainer->Add(fHistPiPiDCAVSMass[j]);
+ fOutputContainer->Add(fHistPiPDCAVSMass[j]);
+ fOutputContainer->Add(fHistPiAPDCAVSMass[j]);
+
+ fOutputContainer->Add(fHistPiPiCosPointAng[j]);
+ fOutputContainer->Add(fHistPiPCosPointAng[j]);
+ fOutputContainer->Add(fHistPiAPCosPointAng[j]);
+
+ fOutputContainer->Add(fHistPiPiDecayLengthVsMass[j]);
+ fOutputContainer->Add(fHistPiPDecayLengthVsMass[j]);
+ fOutputContainer->Add(fHistPiAPDecayLengthVsMass[j]);
+
+ fOutputContainer->Add(fHistPiPiRadiusXY[j]);
+ fOutputContainer->Add(fHistPiPRadiusXY[j]);
+ fOutputContainer->Add(fHistPiAPRadiusXY[j]);
- fOutputContainer->Add(fHistPiPiMonitorCuts[j]);
- fOutputContainer->Add(fHistPiPMonitorCuts[j]);
- fOutputContainer->Add(fHistPiAPMonitorCuts[j]);
-
- //others
- fOutputContainer->Add(fHistDedxSecProt[j]);
- fOutputContainer->Add(fHistDedxSecAProt[j]);
- fOutputContainer->Add(fHistDedxSecPiPlus[j]);
- fOutputContainer->Add(fHistDedxSecPiMinus[j]);
-
- fOutputContainer->Add(fHistNclsITSPosK0[j]);
- fOutputContainer->Add(fHistNclsITSNegK0[j]);
- fOutputContainer->Add(fHistNclsITSPosL[j]);
- fOutputContainer->Add(fHistNclsITSNegL[j]);
- fOutputContainer->Add(fHistNclsITSPos[j]);
- fOutputContainer->Add(fHistNclsITSNeg[j]);
+
+
+ //others
+ fOutputContainer->Add(fHistDedxSecProt[j]);
+ fOutputContainer->Add(fHistDedxSecAProt[j]);
+ fOutputContainer->Add(fHistDedxSecPiPlus[j]);
+ fOutputContainer->Add(fHistDedxSecPiMinus[j]);
+
+ fOutputContainer->Add(fHistNclsITSPosK0[j]);
+ fOutputContainer->Add(fHistNclsITSNegK0[j]);
+ fOutputContainer->Add(fHistNclsITSPosL[j]);
+ fOutputContainer->Add(fHistNclsITSNegL[j]);
+ fOutputContainer->Add(fHistNclsITSPos[j]);
+ fOutputContainer->Add(fHistNclsITSNeg[j]);
- fOutputContainer->Add(fHistNclsTPCPosK0[j]);
- fOutputContainer->Add(fHistNclsTPCNegK0[j]);
- fOutputContainer->Add(fHistNclsTPCPosL[j]);
- fOutputContainer->Add(fHistNclsTPCNegL[j]);
- fOutputContainer->Add(fHistNclsTPCPos[j]);
- fOutputContainer->Add(fHistNclsTPCNeg[j]);
+ fOutputContainer->Add(fHistNclsTPCPosK0[j]);
+ fOutputContainer->Add(fHistNclsTPCNegK0[j]);
+ fOutputContainer->Add(fHistNclsTPCPosL[j]);
+ fOutputContainer->Add(fHistNclsTPCNegL[j]);
+ fOutputContainer->Add(fHistNclsTPCPos[j]);
+ fOutputContainer->Add(fHistNclsTPCNeg[j]);
- fOutputContainer->Add(fHistChi2PerNclsITSPosK0[j]);
- fOutputContainer->Add(fHistChi2PerNclsITSNegK0[j]);
- fOutputContainer->Add(fHistChi2PerNclsITSPosL[j]);
- fOutputContainer->Add(fHistChi2PerNclsITSNegL[j]);
- fOutputContainer->Add(fHistChi2PerNclsITSPos[j]);
- fOutputContainer->Add(fHistChi2PerNclsITSNeg[j]);
+ fOutputContainer->Add(fHistChi2PerNclsITSPosK0[j]);
+ fOutputContainer->Add(fHistChi2PerNclsITSNegK0[j]);
+ fOutputContainer->Add(fHistChi2PerNclsITSPosL[j]);
+ fOutputContainer->Add(fHistChi2PerNclsITSNegL[j]);
+ fOutputContainer->Add(fHistChi2PerNclsITSPos[j]);
+ fOutputContainer->Add(fHistChi2PerNclsITSNeg[j]);
- fOutputContainer->Add(fHistNclsITS[j]);
+ fOutputContainer->Add(fHistNclsITS[j]);
- fOutputContainer->Add(fHistNclsTPC[j]);
+ fOutputContainer->Add(fHistNclsTPC[j]);
- fOutputContainer->Add(fHistNCRowsTPCNeg[j]);
- fOutputContainer->Add(fHistNCRowsTPCPos[j]);
- }
+ fOutputContainer->Add(fHistNCRowsTPCNeg[j]);
+ fOutputContainer->Add(fHistNCRowsTPCPos[j]);
+ }
- }
+ }
- //----------------------------- MC reco or MC truth only --------------------------//
- if((fMCMode && fMCTruthMode) || fMCTruthMode){
+ //----------------------------- MC reco or MC truth only --------------------------//
+ if((fMCMode && fMCTruthMode) || fMCTruthMode){
- fHistPrimVtxZESDVSNContributorsMC = new TH2F("fHistPrimVtxZESDVSNContributorsMC","prim vtx pos z ESD vs no. of contributers MC",250,-50,50,500,0.0,500.0);
- fOutputContainer->Add(fHistPrimVtxZESDVSNContributorsMC);
- fHistPrimVtxZESDTPCVSNContributorsMC = new TH2F("fHistPrimVtxZESDTPCVSNContributorsMC","prim vtx pos z TPC vs no. of contributers MC",250,-50,50,500,0.0,500.0);
- fOutputContainer->Add(fHistPrimVtxZESDTPCVSNContributorsMC);
- fHistPrimVtxZESDSPDVSNContributorsMC = new TH2F("fHistPrimVtxZESDSPDVSNContributorsMC","prim vtx pos z SPD vs no. of contributers MC",250,-50,50,500,0.0,500.0);
- fOutputContainer->Add(fHistPrimVtxZESDSPDVSNContributorsMC);
- fHistMCVertexZ= new TH1F("fHistMCVertexZ"," z vertex distr in cm MC",500,-50,50);
- fOutputContainer->Add(fHistMCVertexZ);
- fHistPiPiPDGCode = new TH1F("fHistPiPiPDGCode","PDG code of K0s mothers",3500,0,3500);
- fOutputContainer->Add(fHistPiPPDGCode);
- fHistPiPPDGCode = new TH1F("fHistPiPPDGCode","PDG code of #Lambda mothers",3500,0,3500);
- fOutputContainer->Add(fHistPiPiPDGCode);
- fHistPiAPPDGCode = new TH1F("fHistPiAPPDGCode","PDG code of #bar{#Lambda} mothers",3500,0,3500);
- fOutputContainer->Add(fHistPiAPPDGCode);
- fHistPiPCosPointAngXiVsPt= new TH2F("fHistPiPCosPointAngXiVsPt","pi-p cos of pointing angle vs pt from xi",200,0.0,20.0,250,0.99,1.00);
- fOutputContainer->Add(fHistPiPCosPointAngXiVsPt);
- fHistPiAPCosPointAngXiVsPt= new TH2F("fHistPiAPCosPointAngXiVsPt","pi+p- cos of pointing angle vs pt from xi",200,0.0,20.0,250,0.98,1.00);
- fOutputContainer->Add(fHistPiAPCosPointAngXiVsPt);
- fHistPiPiEtaDMC[0] = new TH2F("fHistPiPiEtaDMCRaw","K0s daughters etaMC raw",300,-6,6,100,0,20);//
- fOutputContainer->Add(fHistPiPiEtaDMC[0]);
- fHistPiPiEtaDMC[1] = new TH2F("fHistPiPiEtaDMC","K0s daughters etaMC after rap V0 cut",300,-6,6,100,0,20);
- fOutputContainer->Add(fHistPiPiEtaDMC[1]);
- fHistPiPEtaDMC[0] = new TH2F("fHistPiPEtaDMCRaw","#Lambda daughters etaMC raw",300,-6,6,100,0,20);
- fOutputContainer->Add(fHistPiPEtaDMC[0]);
- fHistPiPEtaDMC[1] = new TH2F("fHistPiPEtaDMC","#Lambda daughters etaMC after rap V0 cut",300,-6,6,100,0,20);
- fOutputContainer->Add(fHistPiPEtaDMC[1]);
-
- //********************************************** K0 *************************************************//
+ fHistPrimVtxZESDVSNContributorsMC = new TH2F("fHistPrimVtxZESDVSNContributorsMC","prim vtx pos z ESD vs no. of contributers MC",250,-50,50,500,0.0,500.0);
+ fOutputContainer->Add(fHistPrimVtxZESDVSNContributorsMC);
+ fHistPrimVtxZESDTPCVSNContributorsMC = new TH2F("fHistPrimVtxZESDTPCVSNContributorsMC","prim vtx pos z TPC vs no. of contributers MC",250,-50,50,500,0.0,500.0);
+ fOutputContainer->Add(fHistPrimVtxZESDTPCVSNContributorsMC);
+ fHistPrimVtxZESDSPDVSNContributorsMC = new TH2F("fHistPrimVtxZESDSPDVSNContributorsMC","prim vtx pos z SPD vs no. of contributers MC",250,-50,50,500,0.0,500.0);
+ fOutputContainer->Add(fHistPrimVtxZESDSPDVSNContributorsMC);
+ fHistMCVertexZ= new TH1F("fHistMCVertexZ"," z vertex distr in cm MC",500,-50,50);
+ fOutputContainer->Add(fHistMCVertexZ);
+ fHistPiPiPDGCode = new TH1F("fHistPiPiPDGCode","PDG code of K0s mothers",3500,0,3500);
+ fOutputContainer->Add(fHistPiPiPDGCode);
+ fHistPiPPDGCode = new TH1F("fHistPiPPDGCode","PDG code of #Lambda mothers",3500,0,3500);
+ fOutputContainer->Add(fHistPiPPDGCode);
+ fHistPiAPPDGCode = new TH1F("fHistPiAPPDGCode","PDG code of #bar{#Lambda} mothers",3500,0,3500);
+ fOutputContainer->Add(fHistPiAPPDGCode);
+ fHistPiPCosPointAngXiVsPt= new TH2F("fHistPiPCosPointAngXiVsPt","pi-p cos of pointing angle vs pt from xi",200,0.0,20.0,250,0.99,1.00);
+ fOutputContainer->Add(fHistPiPCosPointAngXiVsPt);
+ fHistPiAPCosPointAngXiVsPt= new TH2F("fHistPiAPCosPointAngXiVsPt","pi+p- cos of pointing angle vs pt from xi",200,0.0,20.0,250,0.98,1.00);
+ fOutputContainer->Add(fHistPiAPCosPointAngXiVsPt);
+ fHistPiPiEtaDMC[0] = new TH2F("fHistPiPiEtaDMCRaw","K0s daughters etaMC raw",300,-6,6,100,0,20);//
+ fOutputContainer->Add(fHistPiPiEtaDMC[0]);
+ fHistPiPiEtaDMC[1] = new TH2F("fHistPiPiEtaDMC","K0s daughters etaMC after rap V0 cut",300,-6,6,100,0,20);
+ fOutputContainer->Add(fHistPiPiEtaDMC[1]);
+ fHistPiPEtaDMC[0] = new TH2F("fHistPiPEtaDMCRaw","#Lambda daughters etaMC raw",300,-6,6,100,0,20);
+ fOutputContainer->Add(fHistPiPEtaDMC[0]);
+ fHistPiPEtaDMC[1] = new TH2F("fHistPiPEtaDMC","#Lambda daughters etaMC after rap V0 cut",300,-6,6,100,0,20);
+ fOutputContainer->Add(fHistPiPEtaDMC[1]);
+
+ //********************************************** K0 *************************************************//
- //********************************************** Lambda **********************************************//
-
- fHistPiPMassVSPtSecSigma[0] = new TH2F("fHistPiPMassVSPtSecSigmaMC"," pi-p+ InvMass distribution secondaries from sigma MC",nbMass,1.05,1.25,200,0.,20);
- fHistPiPMassVSPtSecSigma[1] = new TH2F("fHistPiPMassVSPtSecSigma"," pi-p+ InvMass distribution secondaries from Sigma reco",nbMass,1.05,1.25,200,0.,20);
-
- fHistPiPMassVSPtSecXi[0] = new TH2F("fHistPiPMassVSPtSecXiMC"," pi-p+ InvMass distribution secondaries from xi MC",nbMass,1.05,1.25,200,0.,20);
- fHistPiPMassVSYSecXi[1] = new TH2F("fHistPiPMassVSYSecXi"," pi-p+ InvMass distribution secondaries from xi reco",nbMass,1.05,1.25,100,-2.,2);
+ //********************************************** Lambda **********************************************//
- fHistPiPMassVSPtSecXi[1] = new TH2F("fHistPiPMassVSPtSecXi"," pi-p+ InvMass distribution secondaries from xi reco",nbMass,1.05,1.25,200,0.,20);
- fHistPiPMassVSYSecXi[0] = new TH2F("fHistPiPMassVSYSecXiMC"," pi-p+ InvMass distribution secondaries from xi MC",nbMass,1.05,1.25,100,-2.,2);
+ fHistPiPMassVSPtSecSigma[0] = new TH2F("fHistPiPMassVSPtSecSigmaMC"," pi-p+ InvMass distribution secondaries from sigma MC",nbMass,1.05,1.25,200,0.,20);
+ fHistPiPMassVSPtSecSigma[1] = new TH2F("fHistPiPMassVSPtSecSigma"," pi-p+ InvMass distribution secondaries from Sigma reco",nbMass,1.05,1.25,200,0.,20);
- fHistPiPXi0PtVSLambdaPt[0]= new TH2F("fHistPiPXi0PtVSLambdaPtMC"," pt xi 0 vs pt lambda MC truth",200,0.0,20.0,200,0.0,20.0);
- fHistPiPXi0PtVSLambdaPt[1]= new TH2F("fHistPiPXi0PtVSLambdaPt"," pt xi 0 truth vs pt lambda reco",200,0.0,20.0,200,0.0,20.0);
+ fHistPiPMassVSPtSecXi[0] = new TH2F("fHistPiPMassVSPtSecXiMC"," pi-p+ InvMass distribution secondaries from xi MC",nbMass,1.05,1.25,200,0.,20);
+ fHistPiPMassVSPtSecXi[1] = new TH2F("fHistPiPMassVSPtSecXi"," pi-p+ InvMass distribution secondaries from xi reco",nbMass,1.05,1.25,200,0.,20);
- fHistPiPXiMinusPtVSLambdaPt[0]= new TH2F("fHistPiPXiMinusPtVSLambdaPtMC","pt xi- vs pt lambda MC truth",200,0.0,20.0,200,0.0,20.0);
- fHistPiPXiMinusPtVSLambdaPt[1]= new TH2F("fHistPiPXiMinusPtVSLambdaPt","pt xi- truth vs pt lambda reco",200,0.0,20.0,200,0.0,20.0);
+ fHistPiPMassVSYSecXi[0] = new TH2F("fHistPiPMassVSYSecXiMC"," pi-p+ InvMass distribution secondaries from xi MC",nbMass,1.05,1.25,100,-2.,2);
+ fHistPiPMassVSYSecXi[1] = new TH2F("fHistPiPMassVSYSecXi"," pi-p+ InvMass distribution secondaries from xi reco",nbMass,1.05,1.25,100,-2.,2);
+
+ fHistPiPXi0PtVSLambdaPt[0]= new TH2F("fHistPiPXi0PtVSLambdaPtMC"," pt xi 0 vs pt lambda MC truth",200,0.0,20.0,200,0.0,20.0);
+ fHistPiPXi0PtVSLambdaPt[1]= new TH2F("fHistPiPXi0PtVSLambdaPt"," pt xi 0 truth vs pt lambda reco",200,0.0,20.0,200,0.0,20.0);
+
+ fHistPiPXiMinusPtVSLambdaPt[0]= new TH2F("fHistPiPXiMinusPtVSLambdaPtMC","pt xi- vs pt lambda MC truth",200,0.0,20.0,200,0.0,20.0);
+ fHistPiPXiMinusPtVSLambdaPt[1]= new TH2F("fHistPiPXiMinusPtVSLambdaPt","pt xi- truth vs pt lambda reco",200,0.0,20.0,200,0.0,20.0);
- //******************************************* Antilambda **********************************************//
+ //******************************************* Antilambda **********************************************//
+
+ fHistPiAPMassVSPtSecSigma[0] = new TH2F("fHistPiAPMassVSPtSecSigmaMC"," pi+p- InvMass distribution secondaries from Sigma MC",nbMass,1.05,1.25,200,0.,20);
+ fHistPiAPMassVSPtSecSigma[1] = new TH2F("fHistPiAPMassVSPtSecSigma"," pi+p- InvMass distribution secondaries from Sigma reco",nbMass,1.05,1.25,200,0.,20);
- fHistPiAPMassVSPtSecSigma[0] = new TH2F("fHistPiAPMassVSPtSecSigmaMC"," pi+p- InvMass distribution secondaries from Sigma MC",nbMass,1.05,1.25,200,0.,20);
- fHistPiAPMassVSPtSecSigma[1] = new TH2F("fHistPiAPMassVSPtSecSigma"," pi+p- InvMass distribution secondaries from Sigma reco",nbMass,1.05,1.25,200,0.,20);
+ fHistPiAPMassVSPtSecXi[0] = new TH2F("fHistPiAPMassVSPtSecXiMC"," pi+p- InvMass distribution secondaries from xi MC",nbMass,1.05,1.25,200,0.,20);
+ fHistPiAPMassVSPtSecXi[1] = new TH2F("fHistPiAPMassVSPtSecXi"," pi+p- InvMass distribution secondaries from Xi reco",nbMass,1.05,1.25,200,0.,20);
- fHistPiAPMassVSPtSecXi[1] = new TH2F("fHistPiAPMassVSPtSecXi"," pi+p- InvMass distribution secondaries from Xi reco",nbMass,1.05,1.25,200,0.,20);
- fHistPiAPMassVSPtSecXi[0] = new TH2F("fHistPiAPMassVSPtSecXiMC"," pi+p- InvMass distribution secondaries from xi MC",nbMass,1.05,1.25,200,0.,20);
- fHistPiAPMassVSYSecXi[0] = new TH2F("fHistPiAPMassVSYSecXiMC"," pi+p- InvMass distribution secondaries from xi MC",nbMass,1.05,1.25,100,-2,2);
- fHistPiAPMassVSYSecXi[1] = new TH2F("fHistPiAPMassVSYSecXi"," pi+p- InvMass distribution secondaries from xi reco",nbMass,1.05,1.25,100,-2.,2);
+ fHistPiAPMassVSYSecXi[0] = new TH2F("fHistPiAPMassVSYSecXiMC"," pi+p- InvMass distribution secondaries from xi MC",nbMass,1.05,1.25,100,-2,2);
+ fHistPiAPMassVSYSecXi[1] = new TH2F("fHistPiAPMassVSYSecXi"," pi+p- InvMass distribution secondaries from xi reco",nbMass,1.05,1.25,100,-2.,2);
- fHistPiAPXi0PtVSLambdaPt[0]= new TH2F("fHistPiAPXi0PtVSLambdaPtMC"," pt xi 0 vs pt Alambda MC truth",200,0.0,20.0,200,0.0,20.0);
- fHistPiAPXi0PtVSLambdaPt[1]= new TH2F("fHistPiAPXi0PtVSLambdaPt"," pt xi 0 truth vs pt Alambda reco",200,0.0,20.0,200,0.0,20.0);
+ fHistPiAPXi0PtVSLambdaPt[0]= new TH2F("fHistPiAPXi0PtVSLambdaPtMC"," pt xi 0 vs pt Alambda MC truth",200,0.0,20.0,200,0.0,20.0);
+ fHistPiAPXi0PtVSLambdaPt[1]= new TH2F("fHistPiAPXi0PtVSLambdaPt"," pt xi 0 truth vs pt Alambda reco",200,0.0,20.0,200,0.0,20.0);
- fHistPiAPXiMinusPtVSLambdaPt[0]= new TH2F("fHistPiAPXiMinusPtVSLambdaPtMC","pt xi- vs pt Alambda MC truth",200,0.0,20.0,200,0.0,20.0);
- fHistPiAPXiMinusPtVSLambdaPt[1]= new TH2F("fHistPiAPXiMinusPtVSLambdaPt","pt xi- truth vs pt Alambda reco",200,0.0,20.0,200,0.0,20.0);
+ fHistPiAPXiMinusPtVSLambdaPt[0]= new TH2F("fHistPiAPXiMinusPtVSLambdaPtMC","pt xi- vs pt Alambda MC truth",200,0.0,20.0,200,0.0,20.0);
+ fHistPiAPXiMinusPtVSLambdaPt[1]= new TH2F("fHistPiAPXiMinusPtVSLambdaPt","pt xi- truth vs pt Alambda reco",200,0.0,20.0,200,0.0,20.0);
- for(Int_t j=0;j<2;j++){
+ for(Int_t j=0;j<2;j++){
- fOutputContainer->Add(fHistPiPMassVSPtSecXi[j]);
- fOutputContainer->Add(fHistPiAPMassVSPtSecXi[j]);
+ fOutputContainer->Add(fHistPiPMassVSPtSecXi[j]);
+ fOutputContainer->Add(fHistPiAPMassVSPtSecXi[j]);
- fOutputContainer->Add(fHistPiPMassVSYSecXi[j]);
- fOutputContainer->Add(fHistPiAPMassVSYSecXi[j]);
+ fOutputContainer->Add(fHistPiPMassVSYSecXi[j]);
+ fOutputContainer->Add(fHistPiAPMassVSYSecXi[j]);
- fOutputContainer->Add(fHistPiPXi0PtVSLambdaPt[j]);
- fOutputContainer->Add(fHistPiAPXi0PtVSLambdaPt[j]);
+ fOutputContainer->Add(fHistPiPXi0PtVSLambdaPt[j]);
+ fOutputContainer->Add(fHistPiAPXi0PtVSLambdaPt[j]);
- fOutputContainer->Add(fHistPiPXiMinusPtVSLambdaPt[j]);
- fOutputContainer->Add(fHistPiAPXiMinusPtVSLambdaPt[j]);
+ fOutputContainer->Add(fHistPiPXiMinusPtVSLambdaPt[j]);
+ fOutputContainer->Add(fHistPiAPXiMinusPtVSLambdaPt[j]);
- fOutputContainer->Add(fHistPiPMassVSPtSecSigma[j]);
- fOutputContainer->Add(fHistPiAPMassVSPtSecSigma[j]);
+ fOutputContainer->Add(fHistPiPMassVSPtSecSigma[j]);
+ fOutputContainer->Add(fHistPiAPMassVSPtSecSigma[j]);
- }
- }
- /*
- //shift q/pt
- fHistUserPtShift = new TH1F("fHistUserPtShift","user defined shift in 1/pt",100,-0.5,1.5);
- */
+ }
+ }
+ /*
+ //shift q/pt
+ fHistUserPtShift = new TH1F("fHistUserPtShift","user defined shift in 1/pt",100,-0.5,1.5);
+ */
}
//________________________________________________________________________
void AliAnalysisTaskV0ForRAA::UserExec(Option_t *) {
- //user exec
-
- //-- esd handler --//
- AliESDInputHandler *esdH = dynamic_cast<AliESDInputHandler*>
- (AliAnalysisManager::GetAnalysisManager()->GetInputEventHandler());
- if (!esdH) {
- printf("ERROR: Could not get ESDInputHandler");
+ //user exec
+
+ //-- esd handler --//
+ AliESDInputHandler *esdH = dynamic_cast<AliESDInputHandler*>
+ (AliAnalysisManager::GetAnalysisManager()->GetInputEventHandler());
+ if (!esdH) {
+ printf("ERROR: Could not get ESDInputHandler");
+ return;
+ }
+ fESD = esdH->GetEvent();
+ if(!fESD) {
+ printf("ERROR: fESD not available \n");
+ return ;
+ }
+
+ //-- mc handler --//
+ if(fMCMode || fMCTruthMode){
+ AliMCEventHandler *mcH = dynamic_cast<AliMCEventHandler*>
+ (AliAnalysisManager::GetAnalysisManager()->GetMCtruthEventHandler());
+ if(!mcH) {
+ printf("ERROR: Could not get MCInputHandler");
return;
- }
- fESD = esdH->GetEvent();
- if(!fESD) {
- printf("ERROR: fESD not available \n");
+ }
+ fMCev = mcH->MCEvent();
+ if (!fMCev) {
+ printf("ERROR: fMCev not available \n");
return ;
- }
-
- //-- mc handler --//
- if(fMCMode || fMCTruthMode){
- AliMCEventHandler *mcH = dynamic_cast<AliMCEventHandler*>
- (AliAnalysisManager::GetAnalysisManager()->GetMCtruthEventHandler());
- if(!mcH) {
- printf("ERROR: Could not get MCInputHandler");
- return;
- }
- fMCev = mcH->MCEvent();
- if (!fMCev) {
- printf("ERROR: fMCev not available \n");
- return ;
- }
- }
+ }
+ }
- //-- AliPIDResponse --//
- fESDpid = esdH->GetPIDResponse();
+ //-- AliPIDResponse --//
+ fESDpid = esdH->GetPIDResponse();
- //-- Count events before cuts --//
- fHistNEvents->Fill(0);
-
- //-- Check object existence --//
- const AliESDVertex * vtxESD = fESD->GetPrimaryVertexTracks();
- const AliESDVertex * vtxESDTPC = fESD->GetPrimaryVertexTPC();
- const AliESDVertex * vtxESDSPD = fESD->GetPrimaryVertexSPD();
- const AliMultiplicity * multESD = fESD->GetMultiplicity();
-
- if ( !vtxESD ){
- AliError("No Tracks Vertex");
- return;
- }
-
- if ( !vtxESDTPC ){
- AliError("No TPC Vertex");
- return ;
- }
-
- if ( !vtxESDSPD ){
- AliError("No SPD Vertex");
- return ;
- }
-
- if ( !multESD ){
- AliError("No Multiplicity");
- return ;
- }
+ //-- Count events before cuts --//
+ fHistNEvents->Fill(0);
+
+ //-- Check object existence --//
+ const AliESDVertex * vtxESD = fESD->GetPrimaryVertexTracks();
+ const AliESDVertex * vtxESDTPC = fESD->GetPrimaryVertexTPC();
+ const AliESDVertex * vtxESDSPD = fESD->GetPrimaryVertexSPD();
+ const AliMultiplicity * multESD = fESD->GetMultiplicity();
+
+ if ( !vtxESD ){
+ AliError("No Tracks Vertex");
+ return;
+ }
+
+ if ( !vtxESDTPC ){
+ AliError("No TPC Vertex");
+ return ;
+ }
+
+ if ( !vtxESDSPD ){
+ AliError("No SPD Vertex");
+ return ;
+ }
+
+ if ( !multESD ){
+ AliError("No Multiplicity");
+ return ;
+ }
- // ----------- MC vertex -----------------------------------//
+ // ----------- MC vertex -----------------------------------//
- Int_t nContr =0;
- if(fMCMode){
- Double_t vVertexPrim[3];
- fMCev->GetPrimaryVertex()->GetXYZ(vVertexPrim);
- fHistMCVertexZ->Fill(vVertexPrim[2]);
-
- if (vtxESD->GetStatus()){
- nContr=vtxESD->GetNContributors();
- fHistPrimVtxZESDVSNContributorsMC->Fill(vVertexPrim[2],nContr);
- fHistPrimVtxZESDTPCVSNContributorsMC->Fill(vVertexPrim[2],nContr);
+ Int_t nContr =0;
+ if(fMCMode && fMCTruthMode){
+ Double_t vVertexPrim[3];
+ fMCev->GetPrimaryVertex()->GetXYZ(vVertexPrim);
+ fHistMCVertexZ->Fill(vVertexPrim[2]);
+
+ if (vtxESD->GetStatus()){
+ nContr=vtxESD->GetNContributors();
+ fHistPrimVtxZESDVSNContributorsMC->Fill(vVertexPrim[2],nContr);
+ fHistPrimVtxZESDTPCVSNContributorsMC->Fill(vVertexPrim[2],nContr);
+ }
+ else {
+ if(vtxESDSPD->GetStatus()){
+ nContr=vtxESDSPD->GetNContributors();
+ fHistPrimVtxZESDTPCVSNContributorsMC->Fill(vVertexPrim[2],nContr);
+ fHistPrimVtxZESDSPDVSNContributorsMC->Fill(vVertexPrim[2],nContr);
}
- else {
- if(vtxESDSPD->GetStatus()){
- nContr=vtxESDSPD->GetNContributors();
- fHistPrimVtxZESDTPCVSNContributorsMC->Fill(vVertexPrim[2],nContr);
- fHistPrimVtxZESDSPDVSNContributorsMC->Fill(vVertexPrim[2],nContr);
- }
- else{
- fHistPrimVtxZESDVSNContributorsMC->Fill(vVertexPrim[2],nContr);//add for correction ESD and ESDPSD!!!!
- fHistPrimVtxZESDTPCVSNContributorsMC->Fill(vVertexPrim[2],nContr);
- }
+ else{
+ fHistPrimVtxZESDVSNContributorsMC->Fill(vVertexPrim[2],nContr);//add for correction ESD and ESDPSD!!!!
+ fHistPrimVtxZESDTPCVSNContributorsMC->Fill(vVertexPrim[2],nContr);
}
- }
+ }
+ }
- //-- Monitor event cuts --//
- fHistNEvents->Fill(1);
+ //-- Monitor event cuts --//
+ fHistNEvents->Fill(1);
- // -- Check fo centrality
- Bool_t process = kTRUE;
- Int_t centBin = -1;
- if(fUseCentrality) {
- centBin = CalculateCentralityBin();
- if(!fUseCentralityRange){
- if(centBin!= fUseCentralityBin) process=kFALSE;
- }
- else if(centBin < fUseCentralityBin || centBin > fUseCentralityBin+fUseCentralityRange)
- process = kFALSE;
- }
-
- AliESDVZERO* esdV0 = fESD->GetVZEROData();
- Float_t multV0 = esdV0->GetMTotV0A() + esdV0->GetMTotV0C();
+ // -- Check fo centrality
+ Bool_t process = kTRUE;
+ Int_t centBin = -1;
+ if(fUseCentrality) {
+ centBin = CalculateCentralityBin();
+ if(!fUseCentralityRange){
+ if(centBin!= fUseCentralityBin) process=kFALSE;
+ }
+ else if(centBin < fUseCentralityBin || centBin > fUseCentralityBin+fUseCentralityRange)
+ process = kFALSE;
+ }
+
+ AliESDVZERO* esdV0 = fESD->GetVZEROData();
+ Float_t multV0 = esdV0->GetMTotV0A() + esdV0->GetMTotV0C();
- if(fAnapp){// pp Analysis
- // SDD test for 2.76TeV pp
- // select events with SDD
- TString trCl = fESD->GetFiredTriggerClasses();
- if(!(trCl.Contains("ALLNOTRD")) && fSelSDD) return;
-
- Int_t ntracks = fESD->GetNumberOfTracks();
- for(Int_t i=0;i<ntracks;i++){//check sdd event selection
- AliESDtrack *tr= fESD->GetTrack(i);
-
- Bool_t sdd0 = tr->HasPointOnITSLayer(0);
- Bool_t sdd1 = tr->HasPointOnITSLayer(1);
- Bool_t sdd2 = tr->HasPointOnITSLayer(2);
- Bool_t sdd3 = tr->HasPointOnITSLayer(3);
- Bool_t sdd4 = tr->HasPointOnITSLayer(4);
- Bool_t sdd5 = tr->HasPointOnITSLayer(5);
+ if(fAnapp){// pp Analysis
+ // SDD test for 2.76TeV pp
+ // select events with SDD
+ TString trCl = fESD->GetFiredTriggerClasses();
+ if(!(trCl.Contains("ALLNOTRD")) && fSelSDD) return;
+
+ Int_t ntracks = fESD->GetNumberOfTracks();
+ for(Int_t i=0;i<ntracks;i++){//check sdd event selection
+ AliESDtrack *tr= fESD->GetTrack(i);
+
+ Bool_t sdd0 = tr->HasPointOnITSLayer(0);
+ Bool_t sdd1 = tr->HasPointOnITSLayer(1);
+ Bool_t sdd2 = tr->HasPointOnITSLayer(2);
+ Bool_t sdd3 = tr->HasPointOnITSLayer(3);
+ Bool_t sdd4 = tr->HasPointOnITSLayer(4);
+ Bool_t sdd5 = tr->HasPointOnITSLayer(5);
- fHistITSLayerHits->Fill(Int_t(sdd0)*(-1),ntracks);
- fHistITSLayerHits->Fill(Int_t(sdd1)*1,ntracks);
- fHistITSLayerHits->Fill(Int_t(sdd2)*2,ntracks);
- fHistITSLayerHits->Fill(Int_t(sdd3)*3,ntracks);
- fHistITSLayerHits->Fill(Int_t(sdd4)*4,ntracks);
- fHistITSLayerHits->Fill(Int_t(sdd5)*5,ntracks);
- }
+ fHistITSLayerHits->Fill(Int_t(sdd0)*(-1),ntracks);
+ fHistITSLayerHits->Fill(Int_t(sdd1)*1,ntracks);
+ fHistITSLayerHits->Fill(Int_t(sdd2)*2,ntracks);
+ fHistITSLayerHits->Fill(Int_t(sdd3)*3,ntracks);
+ fHistITSLayerHits->Fill(Int_t(sdd4)*4,ntracks);
+ fHistITSLayerHits->Fill(Int_t(sdd5)*5,ntracks);
+ }
- //vertex selection
- if (vtxESD->GetStatus()){
- fHistNEvents->Fill(2);
- fHistESDVertexZ->Fill(vtxESD->GetZv());
- if(fabs(vtxESD->GetZv()) < fVertexZCut){
- fHistMuliplicityRaw->Fill(multV0);
- fHistNEvents->Fill(3);
- fHistNPrim->Fill(nContr);
+ //vertex selection
+ if (vtxESD->GetStatus()){
+ fHistNEvents->Fill(2);
+ fHistESDVertexZ->Fill(vtxESD->GetZv());
+ if(fabs(vtxESD->GetZv()) < fVertexZCut){
+ fHistMuliplicityRaw->Fill(multV0);
+ fHistNEvents->Fill(3);
+ fHistNPrim->Fill(nContr);
- Process();
+ Process();
- fHistMuliplicity->Fill(multV0);
+ fHistMuliplicity->Fill(multV0);
- nContr = vtxESD->GetNContributors();
- // if(nContr<501){
- fHistPrimVtxZESDVSNContributors->Fill(vtxESD->GetZv(),nContr);
- fHistPrimVtxZESDTPCVSNContributors->Fill(vtxESDTPC->GetZv(),nContr);
- //fHistPrimVtxZESDSPDVSNContributorsTPC->Fill(vtxESDSPD->GetZv(),nContr);
- // }
- fHistPrimVtxZESD->Fill(vtxESD->GetZv());
- fHistPrimVtxZESDTPC->Fill(vtxESDTPC->GetZv());
- // fHistPrimVtxZESDSPD->Fill(vtxESDSPD->GetZv());
- // -- count events after processing
- fHistNEvents->Fill(4);
- }
+ nContr = vtxESD->GetNContributors();
+ // if(nContr<501){
+ fHistPrimVtxZESDVSNContributors->Fill(vtxESD->GetZv(),nContr);
+ fHistPrimVtxZESDTPCVSNContributors->Fill(vtxESDTPC->GetZv(),nContr);
+ //fHistPrimVtxZESDSPDVSNContributorsTPC->Fill(vtxESDSPD->GetZv(),nContr);
+ // }
+ fHistPrimVtxZESD->Fill(vtxESD->GetZv());
+ fHistPrimVtxZESDTPC->Fill(vtxESDTPC->GetZv());
+ // fHistPrimVtxZESDSPD->Fill(vtxESDSPD->GetZv());
+ // -- count events after processing
+ fHistNEvents->Fill(4);
}
- else{
- if(vtxESDSPD->GetStatus()){
- fHistNEvents->Fill(2);
+ }
+ else{
+ if(vtxESDSPD->GetStatus()){
+ fHistNEvents->Fill(2);
- fHistESDVertexZ->Fill(vtxESDSPD->GetZv());
- if(fabs(vtxESDSPD->GetZv()) < fVertexZCut){
+ fHistESDVertexZ->Fill(vtxESDSPD->GetZv());
+ if(fabs(vtxESDSPD->GetZv()) < fVertexZCut){
- fHistMuliplicityRaw->Fill(multV0);
- fHistNEvents->Fill(3);
- fHistNPrim->Fill(nContr);
+ fHistMuliplicityRaw->Fill(multV0);
+ fHistNEvents->Fill(3);
+ fHistNPrim->Fill(nContr);
- Process();
+ Process();
- fHistMuliplicity->Fill(multV0);
+ fHistMuliplicity->Fill(multV0);
- nContr = vtxESDSPD->GetNContributors();
- // if(nContr<501){
- //fHistPrimVtxZESDVSNContributors->Fill(vtxESD->GetZv(),nContr);
- fHistPrimVtxZESDTPCVSNContributors->Fill(vtxESDTPC->GetZv(),nContr);
- fHistPrimVtxZESDSPDVSNContributors->Fill(vtxESDSPD->GetZv(),nContr);
- // }
- // fHistPrimVtxZESD->Fill(vtxESD->GetZv());
- fHistPrimVtxZESDTPC->Fill(vtxESDTPC->GetZv());
- fHistPrimVtxZESDSPD->Fill(vtxESDSPD->GetZv());
- // -- count events after processing
- fHistNEvents->Fill(4);
- }
- }
- //else return;
+ nContr = vtxESDSPD->GetNContributors();
+ // if(nContr<501){
+ //fHistPrimVtxZESDVSNContributors->Fill(vtxESD->GetZv(),nContr);
+ fHistPrimVtxZESDTPCVSNContributors->Fill(vtxESDTPC->GetZv(),nContr);
+ fHistPrimVtxZESDSPDVSNContributors->Fill(vtxESDSPD->GetZv(),nContr);
+ // }
+ // fHistPrimVtxZESD->Fill(vtxESD->GetZv());
+ fHistPrimVtxZESDTPC->Fill(vtxESDTPC->GetZv());
+ fHistPrimVtxZESDSPD->Fill(vtxESDSPD->GetZv());
+ // -- count events after processing
+ fHistNEvents->Fill(4);
+ }
}
- }
- else{// PbPb analysis
- if(vtxESD->GetStatus()){
- Double_t vtxZ = vtxESD->GetZv();
- if(process){
- fHistNEvents->Fill(2);
- fHistESDVertexZ->Fill(vtxZ);
- if(fabs(vtxZ) < fVertexZCut){
- nContr = vtxESD->GetNContributors();
- fHistMuliplicityRaw->Fill(multV0);
- fHistNEvents->Fill(3);
- fHistNPrim->Fill(nContr);
- Process();
- fHistMuliplicity->Fill(multV0);
- fHistPrimVtxZESD->Fill(vtxZ);
- fHistPrimVtxZESDVSNContributors->Fill(vtxZ,nContr);
- // -- count events after processing --//
- fHistCentBin->Fill(centBin);
- fHistNEvents->Fill(4);
- }
- }
- if(fabs(vtxZ) < fVertexZCut) fHistCentBinRaw->Fill(centBin);
+ //else return;
+ }
+ }
+ else{// PbPb analysis
+ if(vtxESD->GetStatus()){
+ Double_t vtxZ = vtxESD->GetZv();
+ fHistESDVertexZ->Fill(vtxZ);
+ if(process){
+ fHistNEvents->Fill(2);
+ if(fabs(vtxZ) < fVertexZCut){
+ nContr = vtxESD->GetNContributors();
+ fHistMuliplicityRaw->Fill(multV0);
+ fHistNEvents->Fill(3);
+ fHistNPrim->Fill(nContr);
+ Process();
+ fHistMuliplicity->Fill(multV0);
+ fHistPrimVtxZESD->Fill(vtxZ);
+ fHistPrimVtxZESDVSNContributors->Fill(vtxZ,nContr);
+ // -- count events after processing --//
+ fHistCentBin->Fill(centBin);
+ fHistNEvents->Fill(4);
+ }
}
- }
- PostData(1,fOutputContainer);
+ if(fabs(vtxZ) < fVertexZCut) fHistCentBinRaw->Fill(centBin);
+ }
+ }
+ PostData(1,fOutputContainer);
}
//________________________________________________________________________
void AliAnalysisTaskV0ForRAA::Terminate(Option_t *) {
- //terminate
+ //terminate
}
//________________________________________________________________________
void AliAnalysisTaskV0ForRAA::Process(){
- //run the analysis
+ //run the analysis
- Int_t ntracks = fESD->GetNumberOfTracks();
- Int_t count = 0;
+ Int_t ntracks = fESD->GetNumberOfTracks();
+ Int_t count = 0;
- //-- count number of tracks --//
+ //-- count number of tracks --//
- if(!(!fMCMode && fMCTruthMode)){
- for(Int_t i=0;i<ntracks;i++){
- AliESDtrack *track = (AliESDtrack*)fESD->GetTrack(i);
- if(!fESDTrackCuts->AcceptTrack(track)) continue;
- if( track->Eta() > fEtaCutMCDaughtersVal) continue;
- count++;
- }
- fHistMultiplicityPrimary->Fill(count);
- }
+ if(!(!fMCMode && fMCTruthMode)){
+ for(Int_t i=0;i<ntracks;i++){
+ AliESDtrack *track = (AliESDtrack*)fESD->GetTrack(i);
+ if(!fESDTrackCuts->AcceptTrack(track)) continue;
+ if( track->Eta() > fEtaCutMCDaughtersVal) continue;
+ count++;
+ }
+ fHistMultiplicityPrimary->Fill(count);
+ }
- //-- check number of V0s in case of data or mc data like analysis--//
- Int_t nV0 = fESD->GetNumberOfV0s();
- if(!fMCTruthMode) if(nV0 < 1) return;
+ //-- check number of V0s in case of data or mc data like analysis--//
+ Int_t nV0 = fESD->GetNumberOfV0s();
+ if(!fMCTruthMode) if(nV0 < 1) return;
- //-- run analysis --//
- if(fMCTruthMode) V0MCTruthLoop();
- else V0RecoLoop(0,0,0,0,0.0,0,0.0);
+ //-- run analysis --//
+ if(fMCTruthMode) V0MCTruthLoop();
+ else V0RecoLoop(0,0,0,0,0.0,0,0.0);
}
//________________________________________________________________________
void AliAnalysisTaskV0ForRAA::V0MCTruthLoop(){
- //loop over MC truth particles
-
- //-- get MC stack --//
- AliStack *stack = fMCev->Stack();
-
- /*
- //histo fo user defined shift in charge/pt
- if(fShift){
- fHistUserPtShift->Fill(fDeltaInvP);
- }
- */
- /*
- AliKFVertex primVtxStart(*(fESD->GetPrimaryVertex()));
- Int_t nTracksPrim=primVtxStart.GetNContributors();
- fHistNPrim->Fill(nTracksPrim);
- */
- /*
- // MC
+ //loop over MC truth particles
+
+ //-- get MC stack --//
+ AliStack *stack = fMCev->Stack();
+
+ /*
+ //histo fo user defined shift in charge/pt
+ if(fShift){
+ fHistUserPtShift->Fill(fDeltaInvP);
+ }
+ */
+ /*
+ AliKFVertex primVtxStart(*(fESD->GetPrimaryVertex()));
+ Int_t nTracksPrim=primVtxStart.GetNContributors();
+ fHistNPrim->Fill(nTracksPrim);
+ */
+ /*
+ // MC
- Int_t mcPrimaries = stack->GetNprimary();
- Int_t mcParticles = stack->GetNtrack();
+ Int_t mcPrimaries = stack->GetNprimary();
+ Int_t mcParticles = stack->GetNtrack();
- fHistMultiplicityPrimary->Fill(mcPrimaries);
- fHistMCMultiplicityTracks->Fill(mcParticles);
+ fHistMultiplicityPrimary->Fill(mcPrimaries);
+ fHistMCMultiplicityTracks->Fill(mcParticles);
- // number of V0
- fHistNV0->Fill(nV0);
- if(nTracksPrim>0) {
- fHistNV0WithVertex->Fill(nV0);
- }
- */
-
- //-- MC truht loop for V0s --//
- for (Int_t iMc = 0; iMc < (stack->GetNtrack()); iMc++){//MC truth loop
- TParticle *p0 = stack->Particle(iMc);
- if(!p0) continue;
-
- Int_t pdgCode = p0->GetPdgCode();
- //-------------- only K0s and Lambda ----------//
- if( (pdgCode != 310 ) && ( fabs(pdgCode) != 3122 ) ) continue;
- if(p0->GetNDaughters() !=2) continue;
-
- //-------------- unique ID check-------------- //
- Int_t uniqueID = p0->GetUniqueID();
- if(uniqueID==13) continue;
+ // number of V0
+ fHistNV0->Fill(nV0);
+ if(nTracksPrim>0) {
+ fHistNV0WithVertex->Fill(nV0);
+ }
+ */
+
+
+ //-- MC truht loop for V0s --//
+ for (Int_t iMc = 0; iMc < (stack->GetNtrack()); iMc++){//MC truth loop
+ Int_t fillMCtruth= int(fMCTruthMode);
+ if(fMCTruthMode){
+ fHistPiPiMonitorCuts[0]->Fill(1*fillMCtruth);
+ fHistPiPMonitorCuts[0]->Fill(1*fillMCtruth);
+ fHistPiAPMonitorCuts[0]->Fill(1*fillMCtruth);
+ }
+ TParticle *p0 = stack->Particle(iMc);
+ if(!p0) continue;
+
+ if(fMCTruthMode){
+ fHistPiPiMonitorCuts[0]->Fill(2*fillMCtruth);
+ fHistPiPMonitorCuts[0]->Fill(2*fillMCtruth);
+ fHistPiAPMonitorCuts[0]->Fill(2*fillMCtruth);
+ }
+
+ Int_t pdgCode = p0->GetPdgCode();
+
+ //-------------- only K0s and Lambda ----------//
+ if( (pdgCode != 310 ) && ( fabs(pdgCode) != 3122 ) ) continue;
+ Int_t fillFlagK0 = (3122- fabs(pdgCode))/(3122-310)*fillMCtruth;
+ Int_t fillFlagL = (fabs(pdgCode) - 310)/(3122-310)*(pdgCode+3122)/(2*3122)*fillMCtruth;
+ Int_t fillFlagAL = (fabs(pdgCode) - 310)/(3122-310)*(pdgCode-3122)/(-2*3122)*fillMCtruth;
- //-------------- daughters --------------------//
- Int_t id0 = p0->GetDaughter(0);
- Int_t id1 = p0->GetDaughter(1);
- if(id0<0 || id1 <0) continue;
- Int_t pdgCodeD0 = stack->Particle(id0)->GetPdgCode();
- Int_t pdgCodeD1 = stack->Particle(id1)->GetPdgCode();
-
- if(pdgCodeD0 == pdgCodeD1) continue;
- if(pdgCodeD0*pdgCodeD1>0) continue;
- if((fabs(pdgCodeD0) != 211 ) && ( fabs(pdgCodeD0) != 2212 )) continue;
- if((fabs(pdgCodeD1) != 211 ) && ( fabs(pdgCodeD1) != 2212 )) continue;
-
- TParticle *p00 =stack->Particle(id0);
- TParticle *p01 =stack->Particle(id1);
- Double_t etaMC00 = p00->Eta();
- Double_t etaMC01 = p01->Eta();
-
- //----------- unique ID check daughters-------- //
- Int_t uniqueIDdaughter0 = p00->GetUniqueID();
- Int_t uniqueIDdaughter1 = p01->GetUniqueID();
- if (uniqueIDdaughter0 !=4 || uniqueIDdaughter1 !=4 ) continue;
-
- //----------------- mother variables-----------------//
- Int_t indexMother1 = p0->GetMother(0);
- Int_t isSecd=0;
- Int_t pdgMother =0;
- Int_t goodMother=0;
- Int_t uniqueIDmother=0;
- Double_t ptXiMother=0.0;
+ fHistPiPiMonitorCuts[0]->Fill(3*fillFlagK0);
+ fHistPiPMonitorCuts[0]->Fill(3*fillFlagL);
+ fHistPiAPMonitorCuts[0]->Fill(3*fillFlagAL);
+
+ if(p0->GetNDaughters() !=2) continue;
+ fHistPiPiMonitorCuts[0]->Fill(4*fillFlagK0);
+ fHistPiPMonitorCuts[0]->Fill(4*fillFlagL);
+ fHistPiAPMonitorCuts[0]->Fill(4*fillFlagAL);
+
+ //-------------- unique ID check-------------- //
+ Int_t uniqueID = p0->GetUniqueID();
+ if(uniqueID==13) continue;
+
+ fHistPiPiMonitorCuts[0]->Fill(5*fillFlagK0);
+ fHistPiPMonitorCuts[0]->Fill(5*fillFlagL);
+ fHistPiAPMonitorCuts[0]->Fill(5*fillFlagAL);
+
+ //-------------- daughters --------------------//
+ Int_t id0 = p0->GetDaughter(0);
+ Int_t id1 = p0->GetDaughter(1);
+ if(id0<0 || id1 <0) continue;
+
+ fHistPiPiMonitorCuts[0]->Fill(6*fillFlagK0);
+ fHistPiPMonitorCuts[0]->Fill(6*fillFlagL);
+ fHistPiAPMonitorCuts[0]->Fill(6*fillFlagAL);
+
+ Int_t pdgCodeD0 = stack->Particle(id0)->GetPdgCode();
+ Int_t pdgCodeD1 = stack->Particle(id1)->GetPdgCode();
+
+ if(pdgCodeD0 == pdgCodeD1) continue;
+ if(pdgCodeD0*pdgCodeD1>0) continue;
+
+ fHistPiPiMonitorCuts[0]->Fill(7*fillFlagK0);
+ fHistPiPMonitorCuts[0]->Fill(7*fillFlagL);
+ fHistPiAPMonitorCuts[0]->Fill(7*fillFlagAL);
+
+ if((fabs(pdgCodeD0) != 211 ) && ( fabs(pdgCodeD0) != 2212 )) continue;
+ if((fabs(pdgCodeD1) != 211 ) && ( fabs(pdgCodeD1) != 2212 )) continue;
+
+ fHistPiPiMonitorCuts[0]->Fill(8*fillFlagK0);
+ fHistPiPMonitorCuts[0]->Fill(8*fillFlagL);
+ fHistPiAPMonitorCuts[0]->Fill(8*fillFlagAL);
+
+ TParticle *p00 =stack->Particle(id0);
+ TParticle *p01 =stack->Particle(id1);
+ Double_t etaMC00 = p00->Eta();
+ Double_t etaMC01 = p01->Eta();
- //-----------get geometric properties --------------//
- // DCA of mother to prim vertex = production vertex
- //-- primary and secondary vetex --//
- Double_t vVertex[3];
- fMCev->GetPrimaryVertex()->GetXYZ(vVertex);
- //Double_t x0=p0->Vx(),y0=p0->Vy(),z0=p0->Vz();//mother production vertex
- Double_t x=p00->Vx(),y=p00->Vy(),z=p00->Vz();//daughter vertex =V0 decay vertex
-
- //-- decay radii --//
- Double_t rMC2D = sqrt(x*x+y*y);
- const Double_t xyzMC[3] = {x,y,z};
- // Double_t rMC = p00->R();
-
- //-- phi --//
- Double_t pi = TMath::Pi();
- Double_t phi = p0->Phi();
- if(phi>pi) phi -=2*pi;
-
- //-------------------- V0 variables ----------------//
- Double_t rapidity = p0->Y();
- Double_t massV0MC = p0->GetMass();
- Double_t ptV0MC = p0->Pt();
- Double_t pV0MC = p0->P();
-
-
+ //----------- unique ID check daughters-------- //
+ Int_t uniqueIDdaughter0 = p00->GetUniqueID();
+ Int_t uniqueIDdaughter1 = p01->GetUniqueID();
+ if (uniqueIDdaughter0 !=4 || uniqueIDdaughter1 !=4 ) continue;
- //------check mother and fill mother histos---------//
+ fHistPiPiMonitorCuts[0]->Fill(9*fillFlagK0);
+ fHistPiPMonitorCuts[0]->Fill(9*fillFlagL);
+ fHistPiAPMonitorCuts[0]->Fill(9*fillFlagAL);
+
+ fHistPiPiMonitorCuts[1]->Fill(9*fillFlagK0);
+ fHistPiPMonitorCuts[1]->Fill(9*fillFlagL);
+ fHistPiAPMonitorCuts[1]->Fill(9*fillFlagAL);
- Bool_t isPrim= stack->IsPhysicalPrimary(iMc);
+
+ //-----------get geometric properties --------------//
+ // DCA of mother to prim vertex = production vertex
+ //-- primary and secondary vetex --//
+ Double_t vVertex[3];
+ fMCev->GetPrimaryVertex()->GetXYZ(vVertex);
+ //Double_t x0=p0->Vx(),y0=p0->Vy(),z0=p0->Vz();//mother production vertex
+ Double_t x=p00->Vx(),y=p00->Vy(),z=p00->Vz();//daughter vertex =V0 decay vertex
+
+ //-- decay radii --//
+ Double_t rMC2D = sqrt(x*x+y*y);
+ const Double_t xyzMC[3] = {x,y,z};
+ // Double_t rMC = p00->R();
- if(indexMother1 >-1 && !isPrim){//secondary V0s
- isSecd=1;// is secondary V0s
-
- //-- check for mother --//
- TParticle *mother = stack->Particle(indexMother1);
- if(!mother) {
- Printf("no mother pointer!");continue;
- }
- pdgMother = mother->GetPdgCode();
+ //-- phi --//
+ Double_t pi = TMath::Pi();
+ Double_t phi = p0->Phi();
+ if(phi>pi) phi -=2*pi;
- uniqueIDmother = mother->GetUniqueID();
+ //-------------------- V0 variables ----------------//
+ Double_t rapidity = p0->Y();
+ Double_t massV0MC = p0->GetMass();
+ Double_t ptV0MC = p0->Pt();
+ Double_t pV0MC = p0->P();
- if(uniqueIDmother==13) continue;
+
+ //----------------- mother variables-----------------//
+ Int_t indexMother1 = p0->GetMother(0);
+ Int_t isSecd=0;
+ Int_t pdgMother =0;
+ // Int_t goodMother=1;
+ Int_t uniqueIDmother=0;
+ Double_t ptXiMother=0.0;
+
+ //------check mother and fill mother histos---------//
+
+ Bool_t isPrim= stack->IsPhysicalPrimary(iMc);
+ if(!isPrim){
+ isSecd=1;// is secondary V0s
+ if(indexMother1 >-1){// && !isPrim){//secondary V0s
+ // isSecd=1;// is secondary V0s
+
+ //-- check for mother --//
+ TParticle *mother = stack->Particle(indexMother1);
+ if(!mother) {
+ Printf("no mother pointer!");continue;
+ }
+ pdgMother = mother->GetPdgCode();
+ fHistPiPiMonitorCuts[1]->Fill(10*fillFlagK0);
+ fHistPiPMonitorCuts[1]->Fill(10*fillFlagL);
+ fHistPiAPMonitorCuts[1]->Fill(10*fillFlagAL);
+
+ Bool_t isPrimMother= stack->IsPhysicalPrimary(indexMother1);
+ if(!isPrimMother) continue;
+ fHistPiPiMonitorCuts[1]->Fill(11*fillFlagK0);
+ fHistPiPMonitorCuts[1]->Fill(11*fillFlagL);
+ fHistPiAPMonitorCuts[1]->Fill(11*fillFlagAL);
+
+ uniqueIDmother = mother->GetUniqueID();
+ if(uniqueIDmother==13){
+ // goodMother =0;
+ continue;
+ }
+ fHistPiPiMonitorCuts[1]->Fill(12*fillFlagK0);
+ fHistPiPMonitorCuts[1]->Fill(12*fillFlagL);
+ fHistPiAPMonitorCuts[1]->Fill(12*fillFlagAL);
- //-- fill secondary V0s histos and pdg histos --//
- ptXiMother=mother->Pt();
+ //-- fill secondary V0s histos and pdg histos --//
+ ptXiMother=mother->Pt();
- //-- K0s --//
- if(pdgCode==310){
- if(fabs(pdgMother)==311 || fabs(pdgMother)==313 || fabs(pdgMother)==323 ) isSecd=0; // from K0L, K0 and K* as primary
- else fHistPiPiPDGCode->Fill(fabs(pdgMother));
- goodMother=1;
- }
- //-- Lambda --//
- if(pdgCode==3122){
- fHistPiPPDGCode->Fill(fabs(pdgMother));
- if (//sigma family
- ( TMath::Abs(pdgMother) == 3112) || //sigma minus
- ( TMath::Abs(pdgMother) == 3222) || //sigma plus
- ( TMath::Abs(pdgMother) == 3224) || //sigma *plus
- ( TMath::Abs(pdgMother) == 3114) || //sigma *minus
- ( TMath::Abs(pdgMother) == 3214) || //sigma *0 counts as primary????
- ( TMath::Abs(pdgMother) == 3212) //sigma 0 counts as primary
- )
- {
- isSecd=0;
- goodMother=1;
- }
+ //-- K0s --//
+ if(pdgCode==310){
+ if(fabs(pdgMother)==311 || fabs(pdgMother)==313 || fabs(pdgMother)==323 ) isSecd=0; // from K0L, K0 and K* as primary
+ else fHistPiPiPDGCode->Fill(fabs(pdgMother));
+ //goodMother=1;
+ }
+ //-- Lambda --//
+ if(pdgCode==3122){
+ fHistPiPPDGCode->Fill(fabs(pdgMother));
+ if (//sigma family
+ ( TMath::Abs(pdgMother) == 3112) || //sigma minus
+ ( TMath::Abs(pdgMother) == 3222) || //sigma plus
+ ( TMath::Abs(pdgMother) == 3224) || //sigma *plus
+ ( TMath::Abs(pdgMother) == 3114) || //sigma *minus
+ ( TMath::Abs(pdgMother) == 3214) || //sigma *0 counts as primary????
+ ( TMath::Abs(pdgMother) == 3212) //sigma 0 counts as primary
+ )
+ {
+ isSecd=0;
+ //goodMother=1;
+ }
- if( TMath::Abs(pdgMother) == 3322) //xi0
- {
- if(!fRapCutV0 || fabs(rapidity)<fRap){
- if(!fEtaCutMCDaughters || (fabs(etaMC00)<fEtaCutMCDaughtersVal|| fabs(etaMC01)<fEtaCutMCDaughtersVal)){
- fHistPiPMassVSPtSecXi[0]->Fill(massV0MC,ptV0MC);
- fHistPiPMassVSYSecXi[0]->Fill(massV0MC,ptV0MC);
- fHistPiPXi0PtVSLambdaPt[0]->Fill(ptV0MC,ptXiMother);
- }
- }
- goodMother=1;
- }
- if( TMath::Abs(pdgMother) == 3312) //xi minus
- {
- if(!fRapCutV0 || fabs(rapidity)<fRap){
- if(!fEtaCutMCDaughters || (fabs(etaMC00)<fEtaCutMCDaughtersVal|| fabs(etaMC01)<fEtaCutMCDaughtersVal)){
- fHistPiPMassVSPtSecXi[0]->Fill(massV0MC,ptV0MC);
- fHistPiPMassVSYSecXi[0]->Fill(massV0MC,ptV0MC);
- fHistPiPXiMinusPtVSLambdaPt[0]->Fill(ptV0MC,ptXiMother);
- }
- }
- goodMother=1;
-
- }
- if(TMath::Abs(pdgMother) == 3334)//omega-
- {
- // fHistPiPDCAtoPrimVtxOmega[0]->Fill(p0->GetMass(),dcaV0ToPrimVertex);
- goodMother=1;
- }
- }
- //-- AntiLambda --//
- if(pdgCode==-3122 ){
- fHistPiAPPDGCode->Fill(fabs(pdgMother));
- if (//sigma family
- ( TMath::Abs(pdgMother) == 3112) ||//sigma minus
- ( TMath::Abs(pdgMother) == 3222) ||//sigma plus
- ( TMath::Abs(pdgMother) == 3224) ||//sigma *plus
- ( TMath::Abs(pdgMother) == 3114) ||//sigma *minus
- ( TMath::Abs(pdgMother) == 3214) || //sigma *0
- ( TMath::Abs(pdgMother) == 3212) //sigma 0 counts as primary
- )
- {
- isSecd=0;
- goodMother=1;
- }
+ if( TMath::Abs(pdgMother) == 3322) //xi0
+ {
+ if(!fRapCutV0 || fabs(rapidity)<fRap){
+ if(!fEtaCutMCDaughters || (fabs(etaMC00)<fEtaCutMCDaughtersVal|| fabs(etaMC01)<fEtaCutMCDaughtersVal)){
+ fHistPiPMassVSPtSecXi[0]->Fill(massV0MC,ptV0MC);
+ fHistPiPMassVSYSecXi[0]->Fill(massV0MC,ptV0MC);
+ fHistPiPXi0PtVSLambdaPt[0]->Fill(ptV0MC,ptXiMother);
+ }
+ }
+ //goodMother=1;
+ }
+ if( TMath::Abs(pdgMother) == 3312) //xi minus
+ {
+ if(!fRapCutV0 || fabs(rapidity)<fRap){
+ if(!fEtaCutMCDaughters || (fabs(etaMC00)<fEtaCutMCDaughtersVal|| fabs(etaMC01)<fEtaCutMCDaughtersVal)){
+ fHistPiPMassVSPtSecXi[0]->Fill(massV0MC,ptV0MC);
+ fHistPiPMassVSYSecXi[0]->Fill(massV0MC,ptV0MC);
+ fHistPiPXiMinusPtVSLambdaPt[0]->Fill(ptV0MC,ptXiMother);
+ }
+ }
+ //goodMother=1;
+
+ }
+ if(TMath::Abs(pdgMother) == 3334)//omega-
+ {
+ // fHistPiPDCAtoPrimVtxOmega[0]->Fill(p0->GetMass(),dcaV0ToPrimVertex);
+ //goodMother=1;
+ }
+ }
+ //-- AntiLambda --//
+ if(pdgCode==-3122 ){
+ fHistPiAPPDGCode->Fill(fabs(pdgMother));
+ if (//sigma family
+ ( TMath::Abs(pdgMother) == 3112) ||//sigma minus
+ ( TMath::Abs(pdgMother) == 3222) ||//sigma plus
+ ( TMath::Abs(pdgMother) == 3224) ||//sigma *plus
+ ( TMath::Abs(pdgMother) == 3114) ||//sigma *minus
+ ( TMath::Abs(pdgMother) == 3214) || //sigma *0
+ ( TMath::Abs(pdgMother) == 3212) //sigma 0 counts as primary
+ )
+ {
+ isSecd=0;
+ // goodMother=1;
+ }
- if( TMath::Abs(pdgMother) == 3322) //xi0
- {
- if(!fRapCutV0 || fabs(rapidity)<fRap){
- if(!fEtaCutMCDaughters || (fabs(etaMC00)<fEtaCutMCDaughtersVal|| fabs(etaMC01)<fEtaCutMCDaughtersVal)){
- fHistPiAPMassVSPtSecXi[0]->Fill(massV0MC,ptV0MC);
- fHistPiAPMassVSYSecXi[0]->Fill(massV0MC,ptV0MC);
- fHistPiAPXi0PtVSLambdaPt[0]->Fill(ptV0MC,ptXiMother);
- }
- }
- goodMother=1;
- }
- if( TMath::Abs(pdgMother) == 3312) //xi minus
- {
- if(!fRapCutV0 || fabs(rapidity)<fRap){
- if(!fEtaCutMCDaughters || (fabs(etaMC00)<fEtaCutMCDaughtersVal|| fabs(etaMC01)<fEtaCutMCDaughtersVal)){
- fHistPiAPMassVSPtSecXi[0]->Fill(massV0MC,ptV0MC);
- fHistPiAPMassVSYSecXi[0]->Fill(massV0MC,ptV0MC);
- fHistPiAPXiMinusPtVSLambdaPt[0]->Fill(ptV0MC,ptXiMother);
- }
- }
- goodMother=1;
- }
- if(
- (TMath::Abs(pdgMother) == 3334)//omega-
- )
- {
- // fHistPiAPDCAtoPrimVtxOmega[0]->Fill(p0->GetMass(),dcaV0ToPrimVertex);
- goodMother=1;
- }
- }
-
- }//end secondaries
- else goodMother=1;
- if(!goodMother) continue;// for (A)Lambda important
-
- //-------------- MC truth or reco mode -----------------//
- if(fMCTruthMode && !fMCMode){//MC true ana
- //-- DCA daughters --//
- // values of one daugher, should be the same
- /*
- //to primary vertex
- trackPos->GetImpactParameters(tdcaPosToVertex[0],tdcaPosToVertex[1]);
- trackNeg->GetImpactParameters(tdcaNegToVertex[0],tdcaNegToVertex[1]);
+ if( TMath::Abs(pdgMother) == 3322) //xi0
+ {
+ if(!fRapCutV0 || fabs(rapidity)<fRap){
+ if(!fEtaCutMCDaughters || (fabs(etaMC00)<fEtaCutMCDaughtersVal|| fabs(etaMC01)<fEtaCutMCDaughtersVal)){
+ fHistPiAPMassVSPtSecXi[0]->Fill(massV0MC,ptV0MC);
+ fHistPiAPMassVSYSecXi[0]->Fill(massV0MC,ptV0MC);
+ fHistPiAPXi0PtVSLambdaPt[0]->Fill(ptV0MC,ptXiMother);
+ }
+ }
+ // goodMother=1;
+ }
+ if( TMath::Abs(pdgMother) == 3312) //xi minus
+ {
+ if(!fRapCutV0 || fabs(rapidity)<fRap){
+ if(!fEtaCutMCDaughters || (fabs(etaMC00)<fEtaCutMCDaughtersVal|| fabs(etaMC01)<fEtaCutMCDaughtersVal)){
+ fHistPiAPMassVSPtSecXi[0]->Fill(massV0MC,ptV0MC);
+ fHistPiAPMassVSYSecXi[0]->Fill(massV0MC,ptV0MC);
+ fHistPiAPXiMinusPtVSLambdaPt[0]->Fill(ptV0MC,ptXiMother);
+ }
+ }
+ //goodMother=1;
+ }
+ if(
+ (TMath::Abs(pdgMother) == 3334)//omega-
+ )
+ {
+ // fHistPiAPDCAtoPrimVtxOmega[0]->Fill(p0->GetMass(),dcaV0ToPrimVertex);
+ // goodMother=1;
+ }
+ }
+ }
+ }//end secondaries
+ //else goodMother=1;
+ // if(!goodMother) continue;// for (A)Lambda important
+
+ //-------------- MC truth or reco mode -----------------//
+ if(fMCTruthMode && !fMCMode){//MC true ana
+ fHistPiPiMonitorCuts[isSecd]->Fill(13*fillFlagK0);
+ fHistPiPMonitorCuts[isSecd]->Fill(13*fillFlagL);
+ fHistPiAPMonitorCuts[isSecd]->Fill(13*fillFlagAL);
+
+ //-- DCA daughters --//
+ // values of one daugher, should be the same
+ /*
+ //to primary vertex
+ trackPos->GetImpactParameters(tdcaPosToVertex[0],tdcaPosToVertex[1]);
+ trackNeg->GetImpactParameters(tdcaNegToVertex[0],tdcaNegToVertex[1]);
- Double_t dcaPosToVertex = TMath::Sqrt(tdcaPosToVertex[0]*tdcaPosToVertex[0]+tdcaPosToVertex[1]*tdcaPosToVertex[1]);
- Double_t dcaNegToVertex = TMath::Sqrt(tdcaNegToVertex[0]*tdcaNegToVertex[0]+tdcaNegToVertex[1]*tdcaNegToVertex[1]);
- fHistDCADaughtersToPrimVtx[isSecd]->Fill(dcaPosToVertex,dcaNegToVertex);
- */
+ Double_t dcaPosToVertex = TMath::Sqrt(tdcaPosToVertex[0]*tdcaPosToVertex[0]+tdcaPosToVertex[1]*tdcaPosToVertex[1]);
+ Double_t dcaNegToVertex = TMath::Sqrt(tdcaNegToVertex[0]*tdcaNegToVertex[0]+tdcaNegToVertex[1]*tdcaNegToVertex[1]);
+ fHistDCADaughtersToPrimVtx[isSecd]->Fill(dcaPosToVertex,dcaNegToVertex);
+ */
- //-- armenteros values --//
- TVector3 vecPip;
- TVector3 vecPin;
+ //-- armenteros values --//
+ TVector3 vecPip;
+ TVector3 vecPin;
- Double_t ptPlus=0, ptMinus=0;
- Double_t pt00 = p00->Pt();
- Double_t pt01 = p01->Pt();
+ Double_t ptPlus=0, ptMinus=0;
+ Double_t pt00 = p00->Pt();
+ Double_t pt01 = p01->Pt();
- if(p00->GetPdgCode()<0)
- {
- vecPip.SetXYZ(p01->Px(),p01->Py(),p01->Pz());
- vecPin.SetXYZ(p00->Px(),p00->Py(),p00->Pz());
- ptMinus = pt00;
- ptPlus = pt01;
- }
- else{
- vecPin.SetXYZ(p01->Px(),p01->Py(),p01->Pz());
- vecPip.SetXYZ(p00->Px(),p00->Py(),p00->Pz());
- ptMinus = pt01;
- ptPlus = pt00;
- }
- TVector3 momTot(p0->Px(),p0->Py(),p0->Pz());
- Double_t lQlNeg = fabs(vecPin.Dot(momTot)/momTot.Mag());
- Double_t lQlPos = fabs(vecPip.Dot(momTot)/momTot.Mag());
- Double_t alfa =0.0;
- Double_t den = lQlPos + lQlNeg;
- if(den>0) alfa = (lQlPos - lQlNeg)/den;
- TVector3 qtvec= vecPin.Cross(momTot);//vecPip.Mag()*sqrt(1-pow(thetapip,2));
- Float_t qt = qtvec.Mag()/momTot.Mag();
-
- //-- check for injejcted --//
- Bool_t injected = kTRUE;
- injected = fMCev->IsFromBGEvent(iMc);
- if(fSelectInjected && injected ) continue;
-
- if(pdgCode == 310) {
- fHistPiPiEtaDMC[0]->Fill(etaMC00,ptV0MC);
- fHistPiPiEtaDMC[0]->Fill(etaMC01,ptV0MC);
- }
- if(fabs(pdgCode) == 3122) {
- fHistPiPEtaDMC[0]->Fill(etaMC00,ptV0MC);
- fHistPiPEtaDMC[0]->Fill(etaMC01,ptV0MC);
- }
-
- //-- rapidity and eta cut --//
- if(fRapCutV0 && fabs(rapidity)>fRap) continue;
- if(fEtaCutMCDaughters) { if(fabs(etaMC00)>fEtaCutMCDaughtersVal || fabs(etaMC01)>fEtaCutMCDaughtersVal ) continue; }
-
- Double_t declength=p00->Rho();
-
- //-- Fill Particle histos --//
- if (pdgCode==310){//K0s
- fHistPiPiEtaDMC[1]->Fill(etaMC00,ptV0MC);
- fHistPiPiEtaDMC[1]->Fill(etaMC01,ptV0MC);
-
- fHistPiPiMass[isSecd]->Fill(massV0MC);
- fHistPiPiMassVSPt[isSecd]->Fill(massV0MC,ptV0MC);
- // fHistPiPiPtDaughters[isSecd]->Fill(ptMinus,ptPlus);
- fHistPiPiPtVSY[isSecd]->Fill(rapidity,ptV0MC);
+ if(p00->GetPdgCode()<0)
+ {
+ vecPip.SetXYZ(p01->Px(),p01->Py(),p01->Pz());
+ vecPin.SetXYZ(p00->Px(),p00->Py(),p00->Pz());
+ ptMinus = pt00;
+ ptPlus = pt01;
+ }
+ else{
+ vecPin.SetXYZ(p01->Px(),p01->Py(),p01->Pz());
+ vecPip.SetXYZ(p00->Px(),p00->Py(),p00->Pz());
+ ptMinus = pt01;
+ ptPlus = pt00;
+ }
+ TVector3 momTot(p0->Px(),p0->Py(),p0->Pz());
+ Double_t lQlNeg = fabs(vecPin.Dot(momTot)/momTot.Mag());
+ Double_t lQlPos = fabs(vecPip.Dot(momTot)/momTot.Mag());
+ Double_t alfa =0.0;
+ Double_t den = lQlPos + lQlNeg;
+ if(den>0) alfa = (lQlPos - lQlNeg)/den;
+ TVector3 qtvec= vecPin.Cross(momTot);//vecPip.Mag()*sqrt(1-pow(thetapip,2));
+ Float_t qt = qtvec.Mag()/momTot.Mag();
+
+ //-- check for injejcted --//
+ Bool_t injected = kTRUE;
+ injected = fMCev->IsFromBGEvent(iMc);
+
+ if(fSelectInjected && injected ) continue;
+ fHistPiPiMonitorCuts[isSecd]->Fill(14*fillFlagK0);
+ fHistPiPMonitorCuts[isSecd]->Fill(14*fillFlagL);
+ fHistPiAPMonitorCuts[isSecd]->Fill(14*fillFlagAL);
+
+ if(pdgCode == 310) {
+ fHistPiPiEtaDMC[isSecd]->Fill(etaMC00,ptV0MC);
+ fHistPiPiEtaDMC[isSecd]->Fill(etaMC01,ptV0MC);
+ }
+ if(fabs(pdgCode) == 3122) {
+ fHistPiPEtaDMC[isSecd]->Fill(etaMC00,ptV0MC);
+ fHistPiPEtaDMC[isSecd]->Fill(etaMC01,ptV0MC);
+ }
+
+ //-- rapidity and eta cut --//
+ if(fRapCutV0 && fabs(rapidity)>fRap) continue;
+ fHistPiPiMonitorCuts[isSecd]->Fill(15*fillFlagK0);
+ fHistPiPMonitorCuts[isSecd]->Fill(15*fillFlagL);
+ fHistPiAPMonitorCuts[isSecd]->Fill(15*fillFlagAL);
+
+ if(fEtaCutMCDaughters) { if(fabs(etaMC00)>fEtaCutMCDaughtersVal || fabs(etaMC01)>fEtaCutMCDaughtersVal ) continue; }
+ fHistPiPiMonitorCuts[isSecd]->Fill(16*fillFlagK0);
+ fHistPiPMonitorCuts[isSecd]->Fill(16*fillFlagL);
+ fHistPiAPMonitorCuts[isSecd]->Fill(16*fillFlagAL);
+
+ Double_t declength=p00->Rho();
+
+ //-- Fill Particle histos --//
+ if (pdgCode==310){//K0s
+ fHistPiPiMonitorCuts[isSecd]->Fill(17);
+
+ fHistPiPiEtaDMC[1]->Fill(etaMC00,ptV0MC);
+ fHistPiPiEtaDMC[1]->Fill(etaMC01,ptV0MC);
+
+ fHistPiPiMass[isSecd]->Fill(massV0MC);
+ fHistPiPiMassVSPt[isSecd]->Fill(massV0MC,ptV0MC);
+ // fHistPiPiPtDaughters[isSecd]->Fill(ptMinus,ptPlus);
+ fHistPiPiPtVSY[isSecd]->Fill(rapidity,ptV0MC);
- Double_t ctK0s=0.0;
- if(pV0MC>0.0) ctK0s=declength*0.497614/pV0MC;
- fHistPiPiDecayLengthVsPt[isSecd]->Fill(ptV0MC,ctK0s);
+ Double_t ctK0s=0.0;
+ if(pV0MC>0.0) ctK0s=declength*0.497614/pV0MC;
+ fHistPiPiDecayLengthVsPt[isSecd]->Fill(ptV0MC,ctK0s);
- //all V0s histo
- fHistArmenteros[isSecd]->Fill(alfa,qt);
- fHistV0RadiusZ[isSecd]->Fill(rMC2D,xyzMC[2]);
- fHistV0RadiusXY[isSecd]->Fill(xyzMC[0],xyzMC[1]);
- fHistV0RadiusZVSPt[isSecd]->Fill(ptV0MC,xyzMC[2]);
+ //all V0s histo
+ fHistArmenteros[isSecd]->Fill(alfa,qt);
+ fHistV0RadiusZ[isSecd]->Fill(rMC2D,xyzMC[2]);
+ fHistV0RadiusXY[isSecd]->Fill(xyzMC[0],xyzMC[1]);
+ fHistV0RadiusZVSPt[isSecd]->Fill(ptV0MC,xyzMC[2]);
- }
- else if (pdgCode==3122){ //Lambda
- fHistPiPEtaDMC[1]->Fill(etaMC00,ptV0MC);
- fHistPiPEtaDMC[1]->Fill(etaMC01,ptV0MC);
-
- fHistPiPMassVSPt[isSecd]->Fill(massV0MC,ptV0MC);
- fHistPiPMass[isSecd]->Fill(massV0MC);
- // fHistPiPPtDaughters[isSecd]->Fill(ptMinus,ptPlus);
- fHistPiPPtVSY[isSecd]->Fill(rapidity,ptV0MC);
+ }
+ else if (pdgCode==3122){ //Lambda
+ fHistPiPMonitorCuts[isSecd]->Fill(17);
+
+ fHistPiPEtaDMC[1]->Fill(etaMC00,ptV0MC);
+ fHistPiPEtaDMC[1]->Fill(etaMC01,ptV0MC);
+
+ fHistPiPMassVSPt[isSecd]->Fill(massV0MC,ptV0MC);
+ fHistPiPMass[isSecd]->Fill(massV0MC);
+ // fHistPiPPtDaughters[isSecd]->Fill(ptMinus,ptPlus);
+ fHistPiPPtVSY[isSecd]->Fill(rapidity,ptV0MC);
- Double_t ctL=0.0;
- if(pV0MC>0.0) ctL=declength*1.115683/pV0MC;
- fHistPiPDecayLengthVsPt[isSecd]->Fill(ptV0MC,ctL);
-
- //all V0s hito
- fHistArmenteros[isSecd]->Fill(alfa,qt);
- fHistV0RadiusZ[isSecd]->Fill(rMC2D,xyzMC[2]);
- fHistV0RadiusXY[isSecd]->Fill(xyzMC[0],xyzMC[1]);
- fHistV0RadiusZVSPt[isSecd]->Fill(ptV0MC,xyzMC[2]);
- }
- else if (pdgCode==-3122){ //AntiLambda
- fHistPiPEtaDMC[1]->Fill(etaMC00,ptV0MC);
- fHistPiPEtaDMC[1]->Fill(etaMC01,ptV0MC);
-
- fHistPiAPMassVSPt[isSecd]->Fill(massV0MC,ptV0MC);
- fHistPiAPMass[isSecd]->Fill(massV0MC);
- // fHistPiAPPtDaughters[isSecd]->Fill(ptMinus,ptPlus);
- fHistPiAPPtVSY[isSecd]->Fill(rapidity,ptV0MC);
+ Double_t ctL=0.0;
+ if(pV0MC>0.0) ctL=declength*1.115683/pV0MC;
+ fHistPiPDecayLengthVsPt[isSecd]->Fill(ptV0MC,ctL);
+
+ //all V0s hito
+ fHistArmenteros[isSecd]->Fill(alfa,qt);
+ fHistV0RadiusZ[isSecd]->Fill(rMC2D,xyzMC[2]);
+ fHistV0RadiusXY[isSecd]->Fill(xyzMC[0],xyzMC[1]);
+ fHistV0RadiusZVSPt[isSecd]->Fill(ptV0MC,xyzMC[2]);
+ }
+ else if (pdgCode==-3122){ //AntiLambda
+ fHistPiAPMonitorCuts[isSecd]->Fill(17);
+
+ fHistPiPEtaDMC[1]->Fill(etaMC00,ptV0MC);
+ fHistPiPEtaDMC[1]->Fill(etaMC01,ptV0MC);
+
+ fHistPiAPMassVSPt[isSecd]->Fill(massV0MC,ptV0MC);
+ fHistPiAPMass[isSecd]->Fill(massV0MC);
+ // fHistPiAPPtDaughters[isSecd]->Fill(ptMinus,ptPlus);
+ fHistPiAPPtVSY[isSecd]->Fill(rapidity,ptV0MC);
- Double_t ctAL=0.0;
- if(pV0MC>0.0) ctAL=declength*1.115683/pV0MC;
- fHistPiAPDecayLengthVsPt[isSecd]->Fill(ptV0MC,ctAL);
-
- //all V0s histo
- fHistArmenteros[isSecd]->Fill(alfa,qt);
- fHistV0RadiusZ[isSecd]->Fill(rMC2D,xyzMC[2]);
- fHistV0RadiusXY[isSecd]->Fill(xyzMC[0],xyzMC[1]);
- fHistV0RadiusZVSPt[isSecd]->Fill(ptV0MC,xyzMC[2]);
- fHistV0RadiusXYVSY[isSecd]->Fill(rapidity,rMC2D);
- }
- }//MC true ana
- else{// V0 reco ana
- V0RecoLoop(id0,id1,isSecd,pdgCode,ptV0MC,pdgMother,ptXiMother);
+ Double_t ctAL=0.0;
+ if(pV0MC>0.0) ctAL=declength*1.115683/pV0MC;
+ fHistPiAPDecayLengthVsPt[isSecd]->Fill(ptV0MC,ctAL);
+
+ //all V0s histo
+ fHistArmenteros[isSecd]->Fill(alfa,qt);
+ fHistV0RadiusZ[isSecd]->Fill(rMC2D,xyzMC[2]);
+ fHistV0RadiusXY[isSecd]->Fill(xyzMC[0],xyzMC[1]);
+ fHistV0RadiusZVSPt[isSecd]->Fill(ptV0MC,xyzMC[2]);
+ fHistV0RadiusXYVSY[isSecd]->Fill(rapidity,rMC2D);
}
+ }//MC true ana
+ else{// V0 reco ana
+ V0RecoLoop(id0,id1,isSecd,pdgCode,ptV0MC,pdgMother,ptXiMother);
+ }
- }//end MC stack loop
+ }//end MC stack loop
}
//________________________________________________________________________
void AliAnalysisTaskV0ForRAA::V0RecoLoop(Int_t id0,Int_t id1,Int_t isSecd,Int_t what,Double_t ptV0MC, Int_t pdgMother,Double_t ptXiMother){
- //loop over reconstructed particles
+ //loop over reconstructed particles
- //--------------------- define variables -----------------------//
- Double_t pp[3];
- Double_t pm[3];
- Double_t xr[3];
+ //--------------------- define variables -----------------------//
+ Double_t pp[3];
+ Double_t pm[3];
+ Double_t xr[3];
- Double_t massPi=0.13957018;
- Double_t massP=0.93827203;
+ Double_t massPi=0.13957018;
+ Double_t massP=0.93827203;
- TLorentzVector positivesMIP;
- TLorentzVector negativesMIAP;
- TLorentzVector positivesMIPi;
- TLorentzVector negativesMIPi;
-
- /*
- AliKFParticle::SetField(fESD->GetMagneticField());
- AliKFVertex primVtx(*(fESD->GetPrimaryVertex()));
- AliKFVertex primVtxImproved = primVtx;
-
- AliKFParticle* negPiKF=NULL;
- AliKFParticle* posPiKF=NULL;
- AliKFParticle* posPKF=NULL;
- AliKFParticle* negAPKF=NULL;
- */
-
- AliESDtrack* trackPos=NULL;
- AliESDtrack* trackNeg=NULL;
- AliESDtrack* trackPosTest = NULL;
- AliESDtrack* trackNegTest =NULL;
-
- Float_t nSigmaTPCtrackPosToPion;
- Float_t nSigmaTPCtrackNegToPion;
- Float_t nSigmaTPCtrackPosToProton;
- Float_t nSigmaTPCtrackNegToProton;
-
- Double_t primaryVtxPosition[3];
- primaryVtxPosition[0] = fESD->GetPrimaryVertex()->GetXv();
- primaryVtxPosition[1] = fESD->GetPrimaryVertex()->GetYv();
- primaryVtxPosition[2] = fESD->GetPrimaryVertex()->GetZv();
+ TLorentzVector positivesMIP;
+ TLorentzVector negativesMIAP;
+ TLorentzVector positivesMIPi;
+ TLorentzVector negativesMIPi;
+
+ /*
+ AliKFParticle::SetField(fESD->GetMagneticField());
+ AliKFVertex primVtx(*(fESD->GetPrimaryVertex()));
+ AliKFVertex primVtxImproved = primVtx;
+
+ AliKFParticle* negPiKF=NULL;
+ AliKFParticle* posPiKF=NULL;
+ AliKFParticle* posPKF=NULL;
+ AliKFParticle* negAPKF=NULL;
+ */
+
+ AliESDtrack* trackPos=NULL;
+ AliESDtrack* trackNeg=NULL;
+ AliESDtrack* trackPosTest = NULL;
+ AliESDtrack* trackNegTest =NULL;
+
+ Float_t nSigmaTPCtrackPosToPion;
+ Float_t nSigmaTPCtrackNegToPion;
+ Float_t nSigmaTPCtrackPosToProton;
+ Float_t nSigmaTPCtrackNegToProton;
+
+ Double_t primaryVtxPosition[3];
+ primaryVtxPosition[0] = fESD->GetPrimaryVertex()->GetXv();
+ primaryVtxPosition[1] = fESD->GetPrimaryVertex()->GetYv();
+ primaryVtxPosition[2] = fESD->GetPrimaryVertex()->GetZv();
- Int_t nV0 = fESD->GetNumberOfV0s();
- AliESDv0 * v0MIs=NULL;
+ Int_t nV0 = fESD->GetNumberOfV0s();
+ AliESDv0 * v0MIs=NULL;
- //------------------------ V0 reco loop --------------------//
- for(Int_t iV0MI = 0; iV0MI < nV0; iV0MI++) {//V0 loop
- //-- get V0 info --//
- v0MIs = fESD->GetV0(iV0MI);
-
- fHistPiPiMonitorCuts[isSecd]->Fill(1);
- fHistPiPMonitorCuts[isSecd]->Fill(1);
- fHistPiAPMonitorCuts[isSecd]->Fill(1);
-
- //------------ get references of daughters --------------//
- //-- esd tracks --//
- trackPosTest = fESD->GetTrack(v0MIs->GetPindex());
- trackNegTest = fESD->GetTrack(v0MIs->GetNindex());
+ //------------------------ V0 reco loop --------------------//
+ for(Int_t iV0MI = 0; iV0MI < nV0; iV0MI++) {//V0 loop
+ //-- get V0 info --//
+ v0MIs = fESD->GetV0(iV0MI);
+
+ fHistPiPiMonitorCuts[isSecd]->Fill(1);
+ fHistPiPMonitorCuts[isSecd]->Fill(1);
+ fHistPiAPMonitorCuts[isSecd]->Fill(1);
+
+ //------------ get references of daughters --------------//
+ //-- esd tracks --//
+ trackPosTest = fESD->GetTrack(v0MIs->GetPindex());
+ trackNegTest = fESD->GetTrack(v0MIs->GetNindex());
- if ( trackPosTest->GetSign() == trackNegTest->GetSign()) continue;
+ if ( trackPosTest->GetSign() == trackNegTest->GetSign()) continue;
- fHistPiPiMonitorCuts[isSecd]->Fill(2);
- fHistPiPMonitorCuts[isSecd]->Fill(2);
- fHistPiAPMonitorCuts[isSecd]->Fill(2);
-
- //-- for MC mode --//
- if(fMCMode){
- //check MC labels (and find partners for MC truth V0 daughters for fMCTruthMode=kTRUE)
- if(!GetMCTruthPartner(trackPosTest,trackNegTest,id0,id1)) continue;
- }
-
- fHistPiPiMonitorCuts[isSecd]->Fill(3);
- fHistPiPMonitorCuts[isSecd]->Fill(3);
- fHistPiAPMonitorCuts[isSecd]->Fill(3);
-
- //-- onthefly selection --//
- Bool_t onthefly = v0MIs->GetOnFlyStatus();
- if(fOntheFly!=onthefly) continue;
-
- fHistPiPiMonitorCuts[isSecd]->Fill(4);
- fHistPiPMonitorCuts[isSecd]->Fill(4);
- fHistPiAPMonitorCuts[isSecd]->Fill(4);
+ fHistPiPiMonitorCuts[isSecd]->Fill(2);
+ fHistPiPMonitorCuts[isSecd]->Fill(2);
+ fHistPiAPMonitorCuts[isSecd]->Fill(2);
+
+ //-- for MC mode --//
+ if(fMCMode){
+ //check MC labels (and find partners for MC truth V0 daughters for fMCTruthMode=kTRUE)
+ if(!GetMCTruthPartner(trackPosTest,trackNegTest,id0,id1)) continue;
+ }
+
+ fHistPiPiMonitorCuts[isSecd]->Fill(3);
+ fHistPiPMonitorCuts[isSecd]->Fill(3);
+ fHistPiAPMonitorCuts[isSecd]->Fill(3);
+
+ //-- onthefly selection --//
+ Bool_t onthefly = v0MIs->GetOnFlyStatus();
+ if(fOntheFly!=onthefly) continue;
+
+ fHistPiPiMonitorCuts[isSecd]->Fill(4);
+ fHistPiPMonitorCuts[isSecd]->Fill(4);
+ fHistPiAPMonitorCuts[isSecd]->Fill(4);
- //-- get eta from V0 daughters --//
- Double_t posDaughterEta=0.0;
- Double_t negDaughterEta=0.0;
+ //-- get eta from V0 daughters --//
+ Double_t posDaughterEta=0.0;
+ Double_t negDaughterEta=0.0;
- Double_t eta00 = trackPosTest->Eta();
- Double_t eta01 = trackNegTest->Eta();
+ Double_t eta00 = trackPosTest->Eta();
+ Double_t eta01 = trackNegTest->Eta();
- //---------- check sign assignment for daughters --------//
- Bool_t switchSign = kFALSE;
-
- if( trackPosTest->GetSign() >0){//pos
- trackPos =fESD->GetTrack(v0MIs->GetPindex());
- trackNeg =fESD->GetTrack(v0MIs->GetNindex());
-
- v0MIs->GetPPxPyPz(pp[0],pp[1],pp[2]);
- v0MIs->GetNPxPyPz(pm[0],pm[1],pm[2]);
-
- posDaughterEta =v0MIs->GetParamP()->Eta();
- negDaughterEta=v0MIs->GetParamN()->Eta();
-
- /*
- if (negPiKF) delete negPiKF; negPiKF=NULL;
- if (posPiKF) delete posPiKF; posPiKF=NULL;
- if (posPKF) delete posPKF; posPKF=NULL;
- if (negAPKF) delete negAPKF; negAPKF=NULL;
-
- negPiKF = new AliKFParticle( *(v0MIs->GetParamN()) ,-211);
- posPiKF = new AliKFParticle( *(v0MIs->GetParamP()) ,211);
- posPKF = new AliKFParticle( *(v0MIs->GetParamP()) ,2212);
- negAPKF = new AliKFParticle( *(v0MIs->GetParamN()) ,-2212);
- */
- }
- if( trackPosTest->GetSign() <0){//neg
- trackPos =fESD->GetTrack(v0MIs->GetNindex());
- trackNeg =fESD->GetTrack(v0MIs->GetPindex());
+ //---------- check sign assignment for daughters --------//
+ Bool_t switchSign = kFALSE;
+
+ if( trackPosTest->GetSign() >0){//pos
+ trackPos =fESD->GetTrack(v0MIs->GetPindex());
+ trackNeg =fESD->GetTrack(v0MIs->GetNindex());
+
+ v0MIs->GetPPxPyPz(pp[0],pp[1],pp[2]);
+ v0MIs->GetNPxPyPz(pm[0],pm[1],pm[2]);
+
+ posDaughterEta =v0MIs->GetParamP()->Eta();
+ negDaughterEta=v0MIs->GetParamN()->Eta();
+
+ /*
+ if (negPiKF) delete negPiKF; negPiKF=NULL;
+ if (posPiKF) delete posPiKF; posPiKF=NULL;
+ if (posPKF) delete posPKF; posPKF=NULL;
+ if (negAPKF) delete negAPKF; negAPKF=NULL;
+
+ negPiKF = new AliKFParticle( *(v0MIs->GetParamN()) ,-211);
+ posPiKF = new AliKFParticle( *(v0MIs->GetParamP()) ,211);
+ posPKF = new AliKFParticle( *(v0MIs->GetParamP()) ,2212);
+ negAPKF = new AliKFParticle( *(v0MIs->GetParamN()) ,-2212);
+ */
+ }
+ if( trackPosTest->GetSign() <0){//neg
+ trackPos =fESD->GetTrack(v0MIs->GetNindex());
+ trackNeg =fESD->GetTrack(v0MIs->GetPindex());
- v0MIs->GetNPxPyPz(pp[0],pp[1],pp[2]);
- v0MIs->GetPPxPyPz(pm[0],pm[1],pm[2]);
+ v0MIs->GetNPxPyPz(pp[0],pp[1],pp[2]);
+ v0MIs->GetPPxPyPz(pm[0],pm[1],pm[2]);
- posDaughterEta = v0MIs->GetParamN()->Eta();
- negDaughterEta = v0MIs->GetParamP()->Eta();
+ posDaughterEta = v0MIs->GetParamN()->Eta();
+ negDaughterEta = v0MIs->GetParamP()->Eta();
- /*
- if (negPiKF) delete negPiKF; negPiKF=NULL;
- if (posPiKF) delete posPiKF; posPiKF=NULL;
- if (posPKF) delete posPKF; posPKF=NULL;
- if (negAPKF) delete negAPKF; negAPKF=NULL;
-
-
- negPiKF = new AliKFParticle( *(v0MIs->GetParamP()) ,-211);
- posPiKF = new AliKFParticle( *(v0MIs->GetParamN()) ,211);
- posPKF = new AliKFParticle( *(v0MIs->GetParamN()) ,2212);
- negAPKF = new AliKFParticle( *(v0MIs->GetParamP()) ,-2212);
- */
- switchSign = kTRUE;
- eta01 = trackPosTest->Eta();
- eta00 = trackNegTest->Eta();
+ /*
+ if (negPiKF) delete negPiKF; negPiKF=NULL;
+ if (posPiKF) delete posPiKF; posPiKF=NULL;
+ if (posPKF) delete posPKF; posPKF=NULL;
+ if (negAPKF) delete negAPKF; negAPKF=NULL;
- }
+
+ negPiKF = new AliKFParticle( *(v0MIs->GetParamP()) ,-211);
+ posPiKF = new AliKFParticle( *(v0MIs->GetParamN()) ,211);
+ posPKF = new AliKFParticle( *(v0MIs->GetParamN()) ,2212);
+ negAPKF = new AliKFParticle( *(v0MIs->GetParamP()) ,-2212);
+ */
+ switchSign = kTRUE;
+ eta01 = trackPosTest->Eta();
+ eta00 = trackNegTest->Eta();
+
+ }
- // ------------- calc masses and 4 vectors -------------- //
- //K0
- positivesMIPi.SetXYZM(pp[0],pp[1],pp[2],massPi);
- negativesMIPi.SetXYZM(pm[0],pm[1],pm[2],massPi);
- TLorentzVector v0K0=positivesMIPi+negativesMIPi;
+ // ------------- calc masses and 4 vectors -------------- //
+ //K0
+ positivesMIPi.SetXYZM(pp[0],pp[1],pp[2],massPi);
+ negativesMIPi.SetXYZM(pm[0],pm[1],pm[2],massPi);
+ TLorentzVector v0K0=positivesMIPi+negativesMIPi;
- //Lambda
- positivesMIP.SetXYZM(pp[0],pp[1],pp[2],massP);
- TLorentzVector v0Lambda=positivesMIP+negativesMIPi;
+ //Lambda
+ positivesMIP.SetXYZM(pp[0],pp[1],pp[2],massP);
+ TLorentzVector v0Lambda=positivesMIP+negativesMIPi;
- //Anitlambda
- negativesMIAP.SetXYZM(pm[0],pm[1],pm[2],massP);
- TLorentzVector v0ALambda=positivesMIPi+negativesMIAP;
+ //Anitlambda
+ negativesMIAP.SetXYZM(pm[0],pm[1],pm[2],massP);
+ TLorentzVector v0ALambda=positivesMIPi+negativesMIAP;
- //---------------------AliKFParticle ---------------------//
- /*
- Double_t chi2K0C=0.0;
- Double_t chi2LambdaC=0.0;
- Double_t chi2ALambdaC=0.0;
+ //---------------------AliKFParticle ---------------------//
+ /*
+ Double_t chi2K0C=0.0;
+ Double_t chi2LambdaC=0.0;
+ Double_t chi2ALambdaC=0.0;
- AliKFParticle v0K0KF;
- v0K0KF +=(*negPiKF);
- v0K0KF +=(*posPiKF);
- //v0K0C.SetVtxGuess(xr[0],xr[1],xr[2]);
- v0K0KF.SetProductionVertex(primVtxImproved);
+ AliKFParticle v0K0KF;
+ v0K0KF +=(*negPiKF);
+ v0K0KF +=(*posPiKF);
+ //v0K0C.SetVtxGuess(xr[0],xr[1],xr[2]);
+ v0K0KF.SetProductionVertex(primVtxImproved);
- AliKFParticle v0LambdaKF;
- v0LambdaKF +=(*negPiKF);
- v0LambdaKF +=(*posPKF);
- //v0LambdaC.SetVtxGuess(xr[0],xr[1],xr[2]);
- v0LambdaKF.SetProductionVertex(primVtxImproved);
+ AliKFParticle v0LambdaKF;
+ v0LambdaKF +=(*negPiKF);
+ v0LambdaKF +=(*posPKF);
+ //v0LambdaC.SetVtxGuess(xr[0],xr[1],xr[2]);
+ v0LambdaKF.SetProductionVertex(primVtxImproved);
- AliKFParticle v0ALambdaKF;
- v0ALambdaKF +=(*negAPKF);
- v0ALambdaKF +=(*posPiKF);
- //v0ALambdaC.SetVtxGuess(xr[0],xr[1],xr[2]);
- v0ALambdaKF.SetProductionVertex(primVtxImproved);
+ AliKFParticle v0ALambdaKF;
+ v0ALambdaKF +=(*negAPKF);
+ v0ALambdaKF +=(*posPiKF);
+ //v0ALambdaC.SetVtxGuess(xr[0],xr[1],xr[2]);
+ v0ALambdaKF.SetProductionVertex(primVtxImproved);
- if( v0K0KF.GetNDF() != 0) {
- chi2K0C = v0K0KF.GetChi2()/v0K0KF.GetNDF();
- }
+ if( v0K0KF.GetNDF() != 0) {
+ chi2K0C = v0K0KF.GetChi2()/v0K0KF.GetNDF();
+ }
- Double_t chi2LambdaC=100000.;
- if( v0LambdaKF.GetNDF() != 0) {
- chi2LambdaC = v0LambdaKF.GetChi2()/v0LambdaKF.GetNDF();
- }
+ Double_t chi2LambdaC=100000.;
+ if( v0LambdaKF.GetNDF() != 0) {
+ chi2LambdaC = v0LambdaKF.GetChi2()/v0LambdaKF.GetNDF();
+ }
- Double_t chi2ALambdaC=100000.;
- if( v0ALambdaKF.GetNDF() != 0) {
- chi2ALambdaC = v0ALambdaKF.GetChi2()/v0ALambdaKF.GetNDF();
- }
- */
+ Double_t chi2ALambdaC=100000.;
+ if( v0ALambdaKF.GetNDF() != 0) {
+ chi2ALambdaC = v0ALambdaKF.GetChi2()/v0ALambdaKF.GetNDF();
+ }
+ */
- // ----------------- for MC mode ------------------------ //
- Bool_t fillK0sMC = kTRUE;
- Bool_t fillLambdaMC = kTRUE;
- Bool_t fillALambdaMC = kTRUE;
-
- if(fMCMode && fMCTruthMode) {
- if(what == 310) {
- fillLambdaMC = kFALSE;
- fillALambdaMC = kFALSE;
- }
- else if(what == 3122){
- fillALambdaMC = kFALSE;
- fillK0sMC = kFALSE;
- }
- else if(what == -3122){
- fillLambdaMC = kFALSE;
- fillK0sMC = kFALSE;
- }
+ // ----------------- for MC mode ------------------------ //
+ Bool_t fillK0sMC = kTRUE;
+ Bool_t fillLambdaMC = kTRUE;
+ Bool_t fillALambdaMC = kTRUE;
+
+ if(fMCMode && fMCTruthMode) {
+ if(what == 310) {
+ fillLambdaMC = kFALSE;
+ fillALambdaMC = kFALSE;
}
+ else if(what == 3122){
+ fillALambdaMC = kFALSE;
+ fillK0sMC = kFALSE;
+ }
+ else if(what == -3122){
+ fillLambdaMC = kFALSE;
+ fillK0sMC = kFALSE;
+ }
+ }
- //----------------- prepare for V0 ana ------------------//
- TVector3 ppTrack(pp);
- TVector3 pmTrack(pm);
+ //----------------- prepare for V0 ana ------------------//
+ TVector3 ppTrack(pp);
+ TVector3 pmTrack(pm);
- Double_t posDaughterPt = ppTrack.Pt();
- Double_t negDaughterPt = pmTrack.Pt();
- /*
- Double_t v0sPt=v0MIs->Pt();
- if(what == 310 || what ==0){
- fHistPiPiEtaDReco[0]->Fill(posDaughterPt,v0sPt);
- fHistPiPiEtaDReco[0]->Fill(negDaughterPt,v0sPt);
- }
- if(fabs(what) == 3122 || what == 0){
- fHistPiPEtaDReco[0]->Fill(posDaughterPt,v0sPt);
- fHistPiPEtaDReco[0]->Fill(negDaughterPt,v0sPt);
- }
- */
- //------------------- DCA daughters ---------------------//
- //-- between the daughters --//
- Double_t dcaDaughters = v0MIs->GetDcaV0Daughters();
+ Double_t posDaughterPt = ppTrack.Pt();
+ Double_t negDaughterPt = pmTrack.Pt();
+ /*
+ Double_t v0sPt=v0MIs->Pt();
+ if(what == 310 || what ==0){
+ fHistPiPiEtaDReco[0]->Fill(posDaughterPt,v0sPt);
+ fHistPiPiEtaDReco[0]->Fill(negDaughterPt,v0sPt);
+ }
+ if(fabs(what) == 3122 || what == 0){
+ fHistPiPEtaDReco[0]->Fill(posDaughterPt,v0sPt);
+ fHistPiPEtaDReco[0]->Fill(negDaughterPt,v0sPt);
+ }
+ */
+ //------------------- DCA daughters ---------------------//
+ //-- between the daughters --//
+ Double_t dcaDaughters = v0MIs->GetDcaV0Daughters();
- //-- to primary vertex --
- Double_t dcaPosToVertex=0.0,dcaNegToVertex=0.0;
- Double_t dzPos=(primaryVtxPosition[0]-xr[0])*ppTrack.Y() - (primaryVtxPosition[1]-xr[1])*ppTrack.X();
- dcaPosToVertex=TMath::Sqrt(dzPos*dzPos/(pow(ppTrack.X(),2)+pow(ppTrack.Y(),2)));
- Double_t dzNeg=(primaryVtxPosition[0]-xr[0])*pmTrack.Y() - (primaryVtxPosition[1]-xr[1])*pmTrack.X();
- dcaNegToVertex=TMath::Sqrt(dzNeg*dzNeg/(pow(pmTrack.X(),2)+pow(pmTrack.Y(),2)));
+ //-- to primary vertex --
+ Double_t dcaPosToVertex=0.0,dcaNegToVertex=0.0;
+ Double_t dzPos=(primaryVtxPosition[0]-xr[0])*ppTrack.Y() - (primaryVtxPosition[1]-xr[1])*ppTrack.X();
+ dcaPosToVertex=TMath::Sqrt(dzPos*dzPos/(pow(ppTrack.X(),2)+pow(ppTrack.Y(),2)));
+ Double_t dzNeg=(primaryVtxPosition[0]-xr[0])*pmTrack.Y() - (primaryVtxPosition[1]-xr[1])*pmTrack.X();
+ dcaNegToVertex=TMath::Sqrt(dzNeg*dzNeg/(pow(pmTrack.X(),2)+pow(pmTrack.Y(),2)));
- // Double_t dcaPosToVertex[3];dcaNegToVertex[3];
- // trackPos->GetImpactParameters(dcaPosToVertex[0],dcaPosToVertex[1]);
- // trackNeg->GetImpactParameters(dcaNegToVertex[0],dcaNegToVertex[1]);
+ // Double_t dcaPosToVertex[3];dcaNegToVertex[3];
+ // trackPos->GetImpactParameters(dcaPosToVertex[0],dcaPosToVertex[1]);
+ // trackNeg->GetImpactParameters(dcaNegToVertex[0],dcaNegToVertex[1]);
- // dcaPosToVertex = TMath::Sqrt(dcaPosToVertex[0]*dcaPosToVertex[0]+dcaPosToVertex[1]*dcaPosToVertex[1]);
- // dcaNegToVertex = TMath::Sqrt(dcaNegToVertex[0]*dcaNegToVertex[0]+dcaNegToVertex[1]*dcaNegToVertex[1]);
+ // dcaPosToVertex = TMath::Sqrt(dcaPosToVertex[0]*dcaPosToVertex[0]+dcaPosToVertex[1]*dcaPosToVertex[1]);
+ // dcaNegToVertex = TMath::Sqrt(dcaNegToVertex[0]*dcaNegToVertex[0]+dcaNegToVertex[1]*dcaNegToVertex[1]);
- //dcaPosToVertex = posPKF->GetDistanceFromVertexXY(primaryVtxPosition);
- //dcaNegToVertex = negPiKF->GetDistanceFromVertexXY(primaryVtxPosition);
+ //dcaPosToVertex = posPKF->GetDistanceFromVertexXY(primaryVtxPosition);
+ //dcaNegToVertex = negPiKF->GetDistanceFromVertexXY(primaryVtxPosition);
- //------------------- dca and decay radius V0 -------------//
- v0MIs->GetXYZ(xr[0],xr[1],xr[2]);
+ //------------------- dca and decay radius V0 -------------//
+ v0MIs->GetXYZ(xr[0],xr[1],xr[2]);
- Double_t dim2V0Radius = TMath::Sqrt(xr[0]*xr[0]+xr[1]*xr[1]);
+ Double_t dim2V0Radius = TMath::Sqrt(xr[0]*xr[0]+xr[1]*xr[1]);
- Double_t decayLength =
- TMath::Sqrt(TMath::Power(xr[0] - primaryVtxPosition[0],2) +
- TMath::Power(xr[1] - primaryVtxPosition[1],2) +
- TMath::Power(xr[2] - primaryVtxPosition[2],2 ));
+ Double_t decayLength =
+ TMath::Sqrt(TMath::Power(xr[0] - primaryVtxPosition[0],2) +
+ TMath::Power(xr[1] - primaryVtxPosition[1],2) +
+ TMath::Power(xr[2] - primaryVtxPosition[2],2 ));
- Double_t dcaV0ToPrimVertex= v0MIs->GetD(primaryVtxPosition[0],primaryVtxPosition[1]);////v0K0KF.GetDistanceFromVertexXY(tPrimaryVtxPosition);
+ Double_t dcaV0ToPrimVertex= v0MIs->GetD(primaryVtxPosition[0],primaryVtxPosition[1]);////v0K0KF.GetDistanceFromVertexXY(tPrimaryVtxPosition);
- //-------------------- general cuts -------------------//
- //-- esd track cuts for daughters --//
- if(fESDTrackCuts){
- if(!fESDTrackCuts->AcceptTrack(trackPosTest)) continue;
- if(!fESDTrackCuts->AcceptTrack(trackNegTest)) continue;
- }
+ //-------------------- general cuts -------------------//
+ //-- esd track cuts for daughters --//
+ if(fESDTrackCuts){
+ if(!fESDTrackCuts->AcceptTrack(trackPosTest)) continue;
+ if(!fESDTrackCuts->AcceptTrack(trackNegTest)) continue;
+ }
+
+ fHistPiPiMonitorCuts[isSecd]->Fill(5);
+ fHistPiPMonitorCuts[isSecd]->Fill(5);
+ fHistPiAPMonitorCuts[isSecd]->Fill(5);
- fHistPiPiMonitorCuts[isSecd]->Fill(5);
- fHistPiPMonitorCuts[isSecd]->Fill(5);
- fHistPiAPMonitorCuts[isSecd]->Fill(5);
-
- //-- eta cut --//
- if( fabs(posDaughterEta) > fEtaCutMCDaughtersVal || fabs(negDaughterEta) > fEtaCutMCDaughtersVal) continue;
- fHistPiPiMonitorCuts[isSecd]->Fill(6);
- fHistPiPMonitorCuts[isSecd]->Fill(6);
- fHistPiAPMonitorCuts[isSecd]->Fill(6);
-
- //-- pt cut --//
- if( fabs(posDaughterPt)<fMinPt || fabs(negDaughterPt) < fMinPt ) continue;
- fHistPiPiMonitorCuts[isSecd]->Fill(7);
- fHistPiPMonitorCuts[isSecd]->Fill(7);
- fHistPiAPMonitorCuts[isSecd]->Fill(7);
-
-
- //-- radius xy min cut --//
- if(dim2V0Radius < fDecayRadXYMin) continue;
- // if(fabs(xr[1])<fDecayRadY) continue;
- fHistPiPiMonitorCuts[isSecd]->Fill(8);
- fHistPiPMonitorCuts[isSecd]->Fill(8);
- fHistPiAPMonitorCuts[isSecd]->Fill(8);
-
- //-- radius xy max cut --//
- if(dim2V0Radius > fDecayRadXYMax) continue;
- // if(fabs(xr[1])<fDecayRadY) continue;
- fHistPiPiMonitorCuts[isSecd]->Fill(9);
- fHistPiPMonitorCuts[isSecd]->Fill(9);
- fHistPiAPMonitorCuts[isSecd]->Fill(9);
-
- //-- decay length min ->ctau --//
- // if(decayLength<fDecayLengthMin) continue;
- // fHistPiPiMonitorCuts[isSecd]->Fill(11);
- // fHistPiPMonitorCuts[isSecd]->Fill(11);
- // fHistPiAPMonitorCuts[isSecd]->Fill(11);
-
- //-- decay length max cut --//
- if(decayLength>fDecayLengthMax) continue;
- fHistPiPiMonitorCuts[isSecd]->Fill(10);
- fHistPiPMonitorCuts[isSecd]->Fill(10);
- fHistPiAPMonitorCuts[isSecd]->Fill(10);
+ //-- eta cut --//
+ if( fabs(posDaughterEta) > fEtaCutMCDaughtersVal || fabs(negDaughterEta) > fEtaCutMCDaughtersVal) continue;
+ fHistPiPiMonitorCuts[isSecd]->Fill(6);
+ fHistPiPMonitorCuts[isSecd]->Fill(6);
+ fHistPiAPMonitorCuts[isSecd]->Fill(6);
+
+ //-- pt cut --//
+ if( fabs(posDaughterPt)<fMinPt || fabs(negDaughterPt) < fMinPt ) continue;
+ fHistPiPiMonitorCuts[isSecd]->Fill(7);
+ fHistPiPMonitorCuts[isSecd]->Fill(7);
+ fHistPiAPMonitorCuts[isSecd]->Fill(7);
+
+
+ //-- radius xy min cut --//
+ if(dim2V0Radius < fDecayRadXYMin) continue;
+ // if(fabs(xr[1])<fDecayRadY) continue;
+ fHistPiPiMonitorCuts[isSecd]->Fill(8);
+ fHistPiPMonitorCuts[isSecd]->Fill(8);
+ fHistPiAPMonitorCuts[isSecd]->Fill(8);
+
+ //-- radius xy max cut --//
+ if(dim2V0Radius > fDecayRadXYMax) continue;
+ // if(fabs(xr[1])<fDecayRadY) continue;
+ fHistPiPiMonitorCuts[isSecd]->Fill(9);
+ fHistPiPMonitorCuts[isSecd]->Fill(9);
+ fHistPiAPMonitorCuts[isSecd]->Fill(9);
+
+ //-- decay length min ->ctau --//
+ // if(decayLength<fDecayLengthMin) continue;
+ // fHistPiPiMonitorCuts[isSecd]->Fill(11);
+ // fHistPiPMonitorCuts[isSecd]->Fill(11);
+ // fHistPiAPMonitorCuts[isSecd]->Fill(11);
+
+ //-- decay length max cut --//
+ if(decayLength>fDecayLengthMax) continue;
+ fHistPiPiMonitorCuts[isSecd]->Fill(10);
+ fHistPiPMonitorCuts[isSecd]->Fill(10);
+ fHistPiAPMonitorCuts[isSecd]->Fill(10);
- //----------------------- V0 variables --------------------//
- //-- armenteros --//
- TVector3 momTot = ppTrack + pmTrack;
- Double_t lQlNeg = fabs(pmTrack.Dot(momTot)/momTot.Mag());
- Double_t lQlPos = fabs(ppTrack.Dot(momTot)/momTot.Mag());
- //return 1.-2./(1.+lQlNeg/lQlPos);
- Double_t alfa =0.0;
- Double_t den = lQlPos + lQlNeg;
- if(den>0) alfa = (lQlPos - lQlNeg)/den;
- TVector3 qtvec= pmTrack.Cross(momTot);//vecPip.Mag()*sqrt(1-pow(thetapip,2));
- Double_t qt = qtvec.Mag()/momTot.Mag();
-
- //-- momenta --//
- Double_t ptK0s = v0K0.Pt();
- Double_t ptLambda = v0Lambda.Pt();
- Double_t ptALambda = v0ALambda.Pt();
-
- Double_t pK0s = v0K0.P();
- Double_t pLambda = v0Lambda.P();
- Double_t pALambda = v0ALambda.P();
-
- //-- masses --//
- Double_t massK0s = v0K0.M();
- Double_t massLambda = v0Lambda.M();
- Double_t massALambda = v0ALambda.M();
-
- //-- rapidity --//
- Double_t rapK0s = v0MIs->Y(310);
- Double_t rapL = v0MIs->Y(3122);
- Double_t rapAL = v0MIs->Y(3122);
-
- //-- other variables --//
- Double_t opAng = fabs(ppTrack.Angle(pmTrack));
- // if( ppTrack.Angle(pmTrack)<0.001) continue;
- // if( ppTrack.Angle(pmTrack)<0.004) continue;
+ //----------------------- V0 variables --------------------//
+ //-- armenteros --//
+ TVector3 momTot = ppTrack + pmTrack;
+ Double_t lQlNeg = fabs(pmTrack.Dot(momTot)/momTot.Mag());
+ Double_t lQlPos = fabs(ppTrack.Dot(momTot)/momTot.Mag());
+ //return 1.-2./(1.+lQlNeg/lQlPos);
+ Double_t alfa =0.0;
+ Double_t den = lQlPos + lQlNeg;
+ if(den>0) alfa = (lQlPos - lQlNeg)/den;
+ TVector3 qtvec= pmTrack.Cross(momTot);//vecPip.Mag()*sqrt(1-pow(thetapip,2));
+ Double_t qt = qtvec.Mag()/momTot.Mag();
+
+ //-- momenta --//
+ Double_t ptK0s = v0K0.Pt();
+ Double_t ptLambda = v0Lambda.Pt();
+ Double_t ptALambda = v0ALambda.Pt();
+
+ Double_t pK0s = v0K0.P();
+ Double_t pLambda = v0Lambda.P();
+ Double_t pALambda = v0ALambda.P();
+
+ //-- masses --//
+ Double_t massK0s = v0K0.M();
+ Double_t massLambda = v0Lambda.M();
+ Double_t massALambda = v0ALambda.M();
+
+ //-- rapidity --//
+ Double_t rapK0s = v0MIs->Y(310);
+ Double_t rapL = v0MIs->Y(3122);
+ Double_t rapAL = v0MIs->Y(3122);
+
+ //-- other variables --//
+ Double_t opAng = fabs(ppTrack.Angle(pmTrack));
+ // if( ppTrack.Angle(pmTrack)<0.001) continue;
+ // if( ppTrack.Angle(pmTrack)<0.004) continue;
- Double_t cosOPAng = v0MIs->GetV0CosineOfPointingAngle();
+ Double_t cosOPAng = v0MIs->GetV0CosineOfPointingAngle();
- /*
- //introduce more histo
- Double_t errOnMassK0s = v0MIs->ChangeMassHypothesis(310);
- Double_t errOnMassLambda = 0.0;
- Double_t errOnMassALambda = 0.0;
- if(!switchSign){
- errOnMassLambda = v0MIs->ChangeMassHypothesis(3122);
- errOnMassALambda = v0MIs->ChangeMassHypothesis(-3122);
- }
- else{
- errOnMassLambda = v0MIs->ChangeMassHypothesis(-3122);
- errOnMassALambda = v0MIs->ChangeMassHypothesis(3122);
- }
- */
+ /*
+ //introduce more histo
+ Double_t errOnMassK0s = v0MIs->ChangeMassHypothesis(310);
+ Double_t errOnMassLambda = 0.0;
+ Double_t errOnMassALambda = 0.0;
+ if(!switchSign){
+ errOnMassLambda = v0MIs->ChangeMassHypothesis(3122);
+ errOnMassALambda = v0MIs->ChangeMassHypothesis(-3122);
+ }
+ else{
+ errOnMassLambda = v0MIs->ChangeMassHypothesis(-3122);
+ errOnMassALambda = v0MIs->ChangeMassHypothesis(3122);
+ }
+ */
+
+
+ //------------------------ detector values -------------------------------//
+ //-- TPC ITS values pos --//
+ Int_t nclsTPCPos = trackPos->GetNcls(1);
+ Int_t nclsTPCFindablePos = trackPos->GetTPCNclsF();
+ Int_t nclsITSPos = trackPos->GetNcls(0);
+ Double_t chi2PerClusterITSPos = -1.0;
+ if(nclsITSPos>0) chi2PerClusterITSPos = trackPos->GetITSchi2()/Double_t(nclsITSPos);
+ Double_t crossedRowsTPCPos = trackPos->GetTPCCrossedRows();
+
+ //-- TPC ITS values neg --//
+ Int_t nclsTPCNeg = trackNeg->GetNcls(1);
+ Int_t nclsTPCFindableNeg = trackNeg->GetTPCNclsF();
+ Int_t nclsITSNeg = trackNeg->GetNcls(0);
+ Double_t chi2PerClusterITSNeg = -1.0;
+ if(nclsITSNeg>0) chi2PerClusterITSNeg =trackNeg->GetITSchi2()/Double_t(nclsITSNeg);
+ Double_t crossedRowsTPCNeg = trackNeg->GetTPCCrossedRows();
+
+ if(fMoreNclsThanRows && (crossedRowsTPCPos < nclsTPCPos || crossedRowsTPCNeg < nclsTPCNeg )) continue;
+ fHistPiPiMonitorCuts[isSecd]->Fill(11);
+ fHistPiPMonitorCuts[isSecd]->Fill(11);
+ fHistPiAPMonitorCuts[isSecd]->Fill(11);
+
+ if(fMoreNclsThanFindable && (nclsTPCFindablePos < nclsTPCPos || nclsTPCFindableNeg < nclsTPCNeg )) continue;
+ fHistPiPiMonitorCuts[isSecd]->Fill(12);
+ fHistPiPMonitorCuts[isSecd]->Fill(12);
+ fHistPiAPMonitorCuts[isSecd]->Fill(12);
+
+ if(chi2PerClusterITSNeg > fChi2PerClusterITS || chi2PerClusterITSPos > fChi2PerClusterITS ) continue;
+ fHistPiPiMonitorCuts[isSecd]->Fill(13);
+ fHistPiPMonitorCuts[isSecd]->Fill(13);
+ fHistPiAPMonitorCuts[isSecd]->Fill(13);
+
+ //-- cut flags for V0 specific cuts --//
+ Bool_t cutOKK0s = kTRUE;
+ Bool_t cutOKLambda = kTRUE;
+ Bool_t cutOKALambda = kTRUE;
+
+ //-------------------------- K0 cuts -----------------------------//
+ if(dcaV0ToPrimVertex > fDCAToVertexK0) continue;
+ if(fabs(xr[2])>fDCAZ) continue;//like decay radius z component
+ fHistPiPiMonitorCuts[isSecd]->Fill(14);
- //------------------------ detector values -------------------------------//
- //-- TPC ITS values pos --//
- Int_t nclsTPCPos = trackPos->GetNcls(1);
- Int_t nclsTPCFindablePos = trackPos->GetTPCNclsF();
- Int_t nclsITSPos = trackPos->GetNcls(0);
- Double_t chi2PerClusterITSPos = -1.0;
- if(nclsITSPos>0) chi2PerClusterITSPos = trackPos->GetITSchi2()/Double_t(nclsITSPos);
- Double_t crossedRowsTPCPos = trackPos->GetTPCCrossedRows();
-
- //-- TPC ITS values neg --//
- Int_t nclsTPCNeg = trackNeg->GetNcls(1);
- Int_t nclsTPCFindableNeg = trackNeg->GetTPCNclsF();
- Int_t nclsITSNeg = trackNeg->GetNcls(0);
- Double_t chi2PerClusterITSNeg = -1.0;
- if(nclsITSNeg>0) chi2PerClusterITSNeg =trackNeg->GetITSchi2()/Double_t(nclsITSNeg);
- Double_t crossedRowsTPCNeg = trackNeg->GetTPCCrossedRows();
-
- if(fMoreNclsThanRows && (crossedRowsTPCPos < nclsTPCPos || crossedRowsTPCNeg < nclsTPCNeg )) continue;
- fHistPiPiMonitorCuts[isSecd]->Fill(11);
- fHistPiPMonitorCuts[isSecd]->Fill(11);
- fHistPiAPMonitorCuts[isSecd]->Fill(11);
-
- if(fMoreNclsThanFindable && (nclsTPCFindablePos < nclsTPCPos || nclsTPCFindableNeg < nclsTPCNeg )) continue;
- fHistPiPiMonitorCuts[isSecd]->Fill(12);
- fHistPiPMonitorCuts[isSecd]->Fill(12);
- fHistPiAPMonitorCuts[isSecd]->Fill(12);
-
- if(chi2PerClusterITSNeg > fChi2PerClusterITS || chi2PerClusterITSPos > fChi2PerClusterITS ) continue;
- fHistPiPiMonitorCuts[isSecd]->Fill(13);
- fHistPiPMonitorCuts[isSecd]->Fill(13);
- fHistPiAPMonitorCuts[isSecd]->Fill(13);
-
- //-- cut flags for V0 specific cuts --//
- Bool_t cutOKK0s = kTRUE;
- Bool_t cutOKLambda = kTRUE;
- Bool_t cutOKALambda = kTRUE;
-
- //-------------------------- K0 cuts -----------------------------//
-
- if(dcaV0ToPrimVertex > fDCAToVertexK0) continue;
- if(fabs(xr[2])>fDCAZ) continue;//like decay radius z component
- fHistPiPiMonitorCuts[isSecd]->Fill(14);
-
- Double_t ctK0 = 0.0;
- if(fabs(pK0s)>0.0) ctK0 = decayLength*0.497614/pK0s;
- if( ctK0 > fCtauK0s && fabs(ptK0s) <fCtauPtCutK0) cutOKK0s = kFALSE;
- else fHistPiPiMonitorCuts[isSecd]->Fill(15);
-
- if((cosOPAng < fCosPointAngK && fabs(ptK0s) < fCPAPtCutK0) || cosOPAng<0.99) cutOKK0s = kFALSE;
- else fHistPiPiMonitorCuts[isSecd]->Fill(16);
-
- if(dcaDaughters > fDCADaughtersK0 )cutOKK0s = kFALSE;
- else fHistPiPiMonitorCuts[isSecd]->Fill(17);
+ Double_t ctK0 = 0.0;
+ if(fabs(pK0s)>0.0) ctK0 = decayLength*0.497614/pK0s;
+ if( ctK0 > fCtauK0s && fabs(ptK0s) <fCtauPtCutK0) cutOKK0s = kFALSE;
+ else fHistPiPiMonitorCuts[isSecd]->Fill(15);
+
+ if((cosOPAng < fCosPointAngK && fabs(ptK0s) < fCPAPtCutK0) || cosOPAng<0.99) cutOKK0s = kFALSE;
+ else fHistPiPiMonitorCuts[isSecd]->Fill(16);
+
+ if(dcaDaughters > fDCADaughtersK0 )cutOKK0s = kFALSE;
+ else fHistPiPiMonitorCuts[isSecd]->Fill(17);
- if(dcaNegToVertex < fDCADaughtersToVtxSmall || dcaPosToVertex < fDCADaughtersToVtxSmall) cutOKK0s = kFALSE;
- else fHistPiPiMonitorCuts[isSecd]->Fill(18);
+ if(dcaNegToVertex < fDCADaughtersToVtxSmall || dcaPosToVertex < fDCADaughtersToVtxSmall) cutOKK0s = kFALSE;
+ else fHistPiPiMonitorCuts[isSecd]->Fill(18);
- if(fRapCutV0 && fabs(rapK0s) > fRap) cutOKK0s = kFALSE;
- else fHistPiPiMonitorCuts[isSecd]->Fill(19);
+ if(fRapCutV0 && fabs(rapK0s) > fRap) cutOKK0s = kFALSE;
+ else fHistPiPiMonitorCuts[isSecd]->Fill(19);
- // if(chi2K0C > fChiCutKf) cutOKK0s = kFALSE;
- if(opAng < fOpengAngleDaughters && fabs(ptK0s) < fOpAngPtCut ) cutOKK0s = kFALSE;
- else fHistPiPiMonitorCuts[isSecd]->Fill(20);
-
- Bool_t ptbinokK0s=kFALSE;
- if( ptK0s<6.5 && ptK0s>1.8) ptbinokK0s=kTRUE;
- if(fArmCutK0 && ptbinokK0s && qt<fQtCut) cutOKK0s = kFALSE;
- else fHistPiPiMonitorCuts[isSecd]->Fill(21);
+ // if(chi2K0C > fChiCutKf) cutOKK0s = kFALSE;
+ if(opAng < fOpengAngleDaughters && fabs(ptK0s) < fOpAngPtCut ) cutOKK0s = kFALSE;
+ else fHistPiPiMonitorCuts[isSecd]->Fill(20);
+
+ Bool_t ptbinokK0s=kFALSE;
+ if( ptK0s < fQtCut && ptK0s > fQtCutPtLow ) ptbinokK0s=kTRUE;
+ Double_t qtval = 0.2*fabs(alfa);
+ if(fArmCutK0 && ptbinokK0s && qt < qtval) cutOKK0s = kFALSE;
+ else fHistPiPiMonitorCuts[isSecd]->Fill(21);
- //-------------------------- Lambda cuts -------------------------//
- if(dcaV0ToPrimVertex > fDCAToVertexL) continue;
- if(fabs(xr[2])>fDCAZ) continue;//like decay radius z component
- fHistPiPMonitorCuts[isSecd]->Fill(14);
+ //-------------------------- Lambda cuts -------------------------//
+ if(dcaV0ToPrimVertex > fDCAToVertexL) continue;
+ if(fabs(xr[2])>fDCAZ) continue;//like decay radius z component
+ fHistPiPMonitorCuts[isSecd]->Fill(14);
- Double_t ctL = 0.0;
- if(fabs(pLambda)>0.0) ctL = decayLength*1.115683/fabs(pLambda);
- if(ctL > fCtauL && fabs(ptLambda) <fCtauPtCutL) cutOKLambda = kFALSE;
- else fHistPiPMonitorCuts[isSecd]->Fill(15);
+ Double_t ctL = 0.0;
+ if(fabs(pLambda)>0.0) ctL = decayLength*1.115683/fabs(pLambda);
+ if(ctL > fCtauL && fabs(ptLambda) <fCtauPtCutL) cutOKLambda = kFALSE;
+ else fHistPiPMonitorCuts[isSecd]->Fill(15);
- if((cosOPAng<fCosPointAngL && fabs(ptLambda) < fCPAPtCutL)|| cosOPAng<0.99) cutOKLambda = kFALSE;
- else fHistPiPMonitorCuts[isSecd]->Fill(16);
+ if((cosOPAng<fCosPointAngL && fabs(ptLambda) < fCPAPtCutL)|| cosOPAng<0.99) cutOKLambda = kFALSE;
+ else fHistPiPMonitorCuts[isSecd]->Fill(16);
- if(dcaDaughters > fDCADaughtersL )cutOKLambda = kFALSE;
- else fHistPiPMonitorCuts[isSecd]->Fill(17);
+ if(dcaDaughters > fDCADaughtersL )cutOKLambda = kFALSE;
+ else fHistPiPMonitorCuts[isSecd]->Fill(17);
- if( dcaNegToVertex < fDCADaughtersToVtxSmall || dcaPosToVertex < fDCADaughtersToVtxLarge) cutOKLambda = kFALSE;
- else fHistPiPMonitorCuts[isSecd]->Fill(18);
-
- if(fRapCutV0 && fabs(rapL) > fRap) cutOKLambda = kFALSE;
- else fHistPiPMonitorCuts[isSecd]->Fill(19);
- /*
- if(chi2LambdaC > fChiCutKf) cutOKLambda = kFALSE;
- else fHistPiPMonitorCuts[isSecd]->Fill(20);
- */
- fHistPiPMonitorCuts[isSecd]->Fill(20);
+ if( dcaNegToVertex < fDCADaughtersToVtxSmall || dcaPosToVertex < fDCADaughtersToVtxLarge) cutOKLambda = kFALSE;
+ else fHistPiPMonitorCuts[isSecd]->Fill(18);
+
+ if(fRapCutV0 && fabs(rapL) > fRap) cutOKLambda = kFALSE;
+ else fHistPiPMonitorCuts[isSecd]->Fill(19);
+ /*
+ if(chi2LambdaC > fChiCutKf) cutOKLambda = kFALSE;
+ else fHistPiPMonitorCuts[isSecd]->Fill(20);
+ */
+ fHistPiPMonitorCuts[isSecd]->Fill(20);
- if(alfa<fAlfaCut || (fArmCutL && qt>fQtCut)) cutOKLambda = kFALSE;
- else fHistPiPMonitorCuts[isSecd]->Fill(21);
+ if(alfa<fAlfaCut || (fArmCutL && qt>fQtCut)) cutOKLambda = kFALSE;
+ else fHistPiPMonitorCuts[isSecd]->Fill(21);
- //--------------------------- ALambda cuts --------------------------//
+ //--------------------------- ALambda cuts --------------------------//
- if(dcaV0ToPrimVertex > fDCAToVertexL) continue;
- if(fabs(xr[2])>fDCAZ) continue;//like decay radius z component
- fHistPiAPMonitorCuts[isSecd]->Fill(14);
+ if(dcaV0ToPrimVertex > fDCAToVertexL) continue;
+ if(fabs(xr[2])>fDCAZ) continue;//like decay radius z component
+ fHistPiAPMonitorCuts[isSecd]->Fill(14);
- Double_t ctAL = 0.0;
- if(fabs(pALambda)>0.0) ctAL = decayLength*1.115683/fabs(pALambda);
- if(ctAL > fCtauL && fabs(ptALambda) <fCtauPtCutL) cutOKALambda = kFALSE;
- else fHistPiAPMonitorCuts[isSecd]->Fill(15);
+ Double_t ctAL = 0.0;
+ if(fabs(pALambda)>0.0) ctAL = decayLength*1.115683/fabs(pALambda);
+ if(ctAL > fCtauL && fabs(ptALambda) <fCtauPtCutL) cutOKALambda = kFALSE;
+ else fHistPiAPMonitorCuts[isSecd]->Fill(15);
- if((cosOPAng<fCosPointAngL && fabs(ptALambda) < fCPAPtCutL)|| cosOPAng<0.99) cutOKALambda = kFALSE;
- else fHistPiAPMonitorCuts[isSecd]->Fill(16);
+ if((cosOPAng<fCosPointAngL && fabs(ptALambda) < fCPAPtCutL)|| cosOPAng<0.99) cutOKALambda = kFALSE;
+ else fHistPiAPMonitorCuts[isSecd]->Fill(16);
- if(dcaDaughters > fDCADaughtersAL )cutOKALambda = kFALSE;
- else fHistPiAPMonitorCuts[isSecd]->Fill(17);
+ if(dcaDaughters > fDCADaughtersAL )cutOKALambda = kFALSE;
+ else fHistPiAPMonitorCuts[isSecd]->Fill(17);
- if( dcaPosToVertex < fDCADaughtersToVtxSmall || dcaNegToVertex < fDCADaughtersToVtxLarge) cutOKALambda = kFALSE;
- else fHistPiAPMonitorCuts[isSecd]->Fill(18);
+ if( dcaPosToVertex < fDCADaughtersToVtxSmall || dcaNegToVertex < fDCADaughtersToVtxLarge) cutOKALambda = kFALSE;
+ else fHistPiAPMonitorCuts[isSecd]->Fill(18);
- if(fRapCutV0 && fabs(rapAL) > fRap) cutOKALambda = kFALSE;
- else fHistPiAPMonitorCuts[isSecd]->Fill(19);
- /*
- if(chi2ALambdaC > fChiCutKf) cutOKALambda = kFALSE;
- else fHistPiAPMonitorCuts[isSecd]->Fill(20);
- */
- fHistPiAPMonitorCuts[isSecd]->Fill(20);
-
- if((fArmCutL && qt>fQtCut) || alfa > -1.0*fAlfaCut) cutOKALambda = kFALSE;
- else fHistPiAPMonitorCuts[isSecd]->Fill(21);
-
- //--------------------- PID ----------------------------//
- //-- dEdx --//
- nSigmaTPCtrackPosToPion = fabs(fESDpid->NumberOfSigmasTPC(trackPos,AliPID::kPion));
- nSigmaTPCtrackNegToPion = fabs(fESDpid->NumberOfSigmasTPC(trackNeg,AliPID::kPion));
- nSigmaTPCtrackPosToProton = fabs(fESDpid->NumberOfSigmasTPC(trackPos,AliPID::kProton));
- nSigmaTPCtrackNegToProton = fabs(fESDpid->NumberOfSigmasTPC(trackNeg,AliPID::kProton));
-
- Bool_t pipidEdx=kTRUE;
- Bool_t pipdEdx =kTRUE;
- Bool_t piapdEdx=kTRUE;
-
- Double_t posDaughterP = ppTrack.Mag();
- Double_t negDaughterP = pmTrack.Mag();
-
- Double_t tpcsigPos= trackPos->GetTPCsignal();
- Double_t tpcsigNeg= trackNeg->GetTPCsignal();
-
- //-- dedx cut --//
- if(fUsePID){
- // if(fabs(posDaughterP)<fPPIDcut && nSigmaTPCtrackPosToPion > fNSigma ){
- // pipidEdx =kFALSE;//k0s
- // }
- if(fabs(posDaughterP)<fPPIDcut && tpcsigPos < 5.0){//no zero dedx values!
- pipidEdx =kFALSE;//k0s
- piapdEdx =kFALSE;//antilambda
- }
- if(fabs(posDaughterP)<fPPIDcut && (nSigmaTPCtrackPosToProton > fNSigma || tpcsigPos < 5.0)) pipdEdx =kFALSE;//lambda
+ if(fRapCutV0 && fabs(rapAL) > fRap) cutOKALambda = kFALSE;
+ else fHistPiAPMonitorCuts[isSecd]->Fill(19);
+ /*
+ if(chi2ALambdaC > fChiCutKf) cutOKALambda = kFALSE;
+ else fHistPiAPMonitorCuts[isSecd]->Fill(20);
+ */
+ fHistPiAPMonitorCuts[isSecd]->Fill(20);
+
+ if((fArmCutL && qt>fQtCut) || alfa > -1.0*fAlfaCut) cutOKALambda = kFALSE;
+ else fHistPiAPMonitorCuts[isSecd]->Fill(21);
+
+ //--------------------- PID ----------------------------//
+ //-- dEdx --//
+ nSigmaTPCtrackPosToPion = fabs(fESDpid->NumberOfSigmasTPC(trackPos,AliPID::kPion));
+ nSigmaTPCtrackNegToPion = fabs(fESDpid->NumberOfSigmasTPC(trackNeg,AliPID::kPion));
+ nSigmaTPCtrackPosToProton = fabs(fESDpid->NumberOfSigmasTPC(trackPos,AliPID::kProton));
+ nSigmaTPCtrackNegToProton = fabs(fESDpid->NumberOfSigmasTPC(trackNeg,AliPID::kProton));
+
+ Bool_t pipidEdx=kTRUE;
+ Bool_t pipdEdx =kTRUE;
+ Bool_t piapdEdx=kTRUE;
+
+ Double_t posDaughterP = ppTrack.Mag();
+ Double_t negDaughterP = pmTrack.Mag();
+
+ Double_t tpcsigPos= trackPos->GetTPCsignal();
+ Double_t tpcsigNeg= trackNeg->GetTPCsignal();
+
+ //-- dedx cut --//
+ if(fUsePID){
+ // if(fabs(posDaughterP)<fPPIDcut && nSigmaTPCtrackPosToPion > fNSigma ){
+ // pipidEdx =kFALSE;//k0s
+ // }
+ if(fabs(posDaughterP)<fPPIDcut && tpcsigPos < 5.0){//no zero dedx values!
+ pipidEdx =kFALSE;//k0s
+ piapdEdx =kFALSE;//antilambda
+ }
+ if(fabs(posDaughterP)<fPPIDcut && (nSigmaTPCtrackPosToProton > fNSigma || tpcsigPos < 5.0)) pipdEdx =kFALSE;//lambda
- // if(fabs(negDaughterP)<fPPIDcut && nSigmaTPCtrackNegToPion > fNSigma ){
- // pipidEdx =kFALSE;//k0s
- // }
- if(fabs(negDaughterP)<fPPIDcut && tpcsigNeg < 5.0){//no zero dedx values!
- pipidEdx =kFALSE;//k0s
- pipdEdx =kFALSE;//lambda
- }
- if(fabs(negDaughterP)<fPPIDcut && (nSigmaTPCtrackNegToProton > fNSigma || tpcsigNeg< 5.0)) piapdEdx =kFALSE;//antilambda
+ // if(fabs(negDaughterP)<fPPIDcut && nSigmaTPCtrackNegToPion > fNSigma ){
+ // pipidEdx =kFALSE;//k0s
+ // }
+ if(fabs(negDaughterP)<fPPIDcut && tpcsigNeg < 5.0){//no zero dedx values!
+ pipidEdx =kFALSE;//k0s
+ pipdEdx =kFALSE;//lambda
}
+ if(fabs(negDaughterP)<fPPIDcut && (nSigmaTPCtrackNegToProton > fNSigma || tpcsigNeg< 5.0)) piapdEdx =kFALSE;//antilambda
+ }
- //-------------------- V0 ana -------------------------//
- //-- cut flags for furhter histos--//
- Bool_t k0sOK=kFALSE;
- Bool_t lambdaOK=kFALSE;
- Bool_t alambdaOK=kFALSE;
-
- //-- Check for K0 --//
- if( cutOKK0s && fillK0sMC && pipidEdx){
- fHistPiPiMonitorCuts[isSecd]->Fill(22);
- k0sOK=kTRUE;
- if(massK0s>0.25 && massK0s<0.75 ){
- fHistPiPiMonitorCuts[isSecd]->Fill(23);
- fHistPiPiMass[isSecd]->Fill(massK0s);
- fHistPiPiMassVSPt[isSecd]->Fill(massK0s,ptK0s);
- fHistPiPiMassVSPtMCTruth[isSecd]->Fill(massK0s,ptV0MC);
- fHistPiPiRadiusXY[isSecd]->Fill(massK0s,opAng);
- fHistPiPiCosPointAng[isSecd]->Fill(dcaV0ToPrimVertex,cosOPAng);
- fHistPiPiDecayLengthVsPt[isSecd]->Fill(ptK0s,ctK0);
- fHistPiPiDecayLengthVsMass[isSecd]->Fill(massK0s,ctK0);
- fHistPiPiDCADaughters[isSecd]->Fill(massK0s,dcaDaughters);
- fHistPiPiDCADaughterPosToPrimVtxVSMass[isSecd]->Fill(massK0s,dcaPosToVertex);
- fHistPiPiDCAVSMass[isSecd]->Fill(massK0s,dcaV0ToPrimVertex);
- // fHistPiPiPtDaughters[isSecd]->Fill(posDaughterPt,negDaughterPt);
- fHistPiPiPtVSY[isSecd]->Fill(rapK0s,ptK0s);
- }
- fHistArmenteros[isSecd]->Fill(alfa,qt);
- fHistDedxSecPiPlus[isSecd]->Fill(posDaughterP,tpcsigPos);
- fHistDedxSecPiMinus[isSecd]->Fill(negDaughterP,tpcsigNeg);
-
- fHistV0RadiusZ[isSecd]->Fill(dim2V0Radius,xr[2]);
- fHistV0RadiusXY[isSecd]->Fill(xr[0],xr[1]);
- fHistV0RadiusZVSPt[isSecd]->Fill(ptK0s,dim2V0Radius);
- fHistV0RadiusXYVSY[isSecd]->Fill(rapK0s,dim2V0Radius);
-
- //-- detector values --/
- fHistNclsITSPosK0[isSecd]->Fill(nclsITSPos);
- fHistNclsITSNegK0[isSecd]->Fill(nclsITSNeg);
- fHistNclsTPCPosK0[isSecd]->Fill(nclsTPCPos);
- fHistNclsTPCNegK0[isSecd]->Fill(nclsTPCNeg);
- fHistChi2PerNclsITSPosK0[isSecd]->Fill(chi2PerClusterITSPos);
- fHistChi2PerNclsITSNegK0[isSecd]->Fill(chi2PerClusterITSNeg);
+ //-------------------- V0 ana -------------------------//
+ //-- cut flags for furhter histos--//
+ Bool_t k0sOK=kFALSE;
+ Bool_t lambdaOK=kFALSE;
+ Bool_t alambdaOK=kFALSE;
+
+ //-- Check for K0 --//
+ if( cutOKK0s && fillK0sMC && pipidEdx){
+ fHistPiPiMonitorCuts[isSecd]->Fill(22);
+ k0sOK=kTRUE;
+ if(massK0s>0.25 && massK0s<0.75 ){
+ fHistPiPiMonitorCuts[isSecd]->Fill(23);
+ fHistPiPiMass[isSecd]->Fill(massK0s);
+ fHistPiPiMassVSPt[isSecd]->Fill(massK0s,ptK0s);
+ fHistPiPiMassVSPtMCTruth[isSecd]->Fill(massK0s,ptV0MC);
+ fHistPiPiRadiusXY[isSecd]->Fill(massK0s,opAng);
+ fHistPiPiCosPointAng[isSecd]->Fill(dcaV0ToPrimVertex,cosOPAng);
+ fHistPiPiDecayLengthVsPt[isSecd]->Fill(ptK0s,ctK0);
+ fHistPiPiDecayLengthVsMass[isSecd]->Fill(massK0s,ctK0);
+ fHistPiPiDCADaughters[isSecd]->Fill(massK0s,dcaDaughters);
+ fHistPiPiDCADaughterPosToPrimVtxVSMass[isSecd]->Fill(massK0s,dcaPosToVertex);
+ fHistPiPiDCAVSMass[isSecd]->Fill(massK0s,dcaV0ToPrimVertex);
+ // fHistPiPiPtDaughters[isSecd]->Fill(posDaughterPt,negDaughterPt);
+ fHistPiPiPtVSY[isSecd]->Fill(rapK0s,ptK0s);
}
+ fHistArmenteros[isSecd]->Fill(alfa,qt);
+ fHistDedxSecPiPlus[isSecd]->Fill(posDaughterP,tpcsigPos);
+ fHistDedxSecPiMinus[isSecd]->Fill(negDaughterP,tpcsigNeg);
+
+ fHistV0RadiusZ[isSecd]->Fill(dim2V0Radius,xr[2]);
+ fHistV0RadiusXY[isSecd]->Fill(xr[0],xr[1]);
+ fHistV0RadiusZVSPt[isSecd]->Fill(ptK0s,dim2V0Radius);
+ fHistV0RadiusXYVSY[isSecd]->Fill(rapK0s,dim2V0Radius);
+
+ //-- detector values --/
+ fHistNclsITSPosK0[isSecd]->Fill(nclsITSPos);
+ fHistNclsITSNegK0[isSecd]->Fill(nclsITSNeg);
+ fHistNclsTPCPosK0[isSecd]->Fill(nclsTPCPos);
+ fHistNclsTPCNegK0[isSecd]->Fill(nclsTPCNeg);
+ fHistChi2PerNclsITSPosK0[isSecd]->Fill(chi2PerClusterITSPos);
+ fHistChi2PerNclsITSNegK0[isSecd]->Fill(chi2PerClusterITSNeg);
+ }
- //-- Check for Lambda --//
- if(cutOKLambda && fillLambdaMC && pipdEdx){
- fHistPiPMonitorCuts[isSecd]->Fill(22);
- lambdaOK=kTRUE;
- if( massLambda>1.05 && massLambda<1.25 ){
- fHistPiPMonitorCuts[isSecd]->Fill(23);
- fHistPiPMass[isSecd]->Fill(massLambda);
- fHistPiPMassVSPtMCTruth[isSecd]->Fill(massLambda,ptV0MC);
- fHistPiPMassVSPt[isSecd]->Fill(massLambda,ptLambda);
- fHistPiPRadiusXY[isSecd]->Fill(massLambda,opAng);
- fHistPiPCosPointAng[isSecd]->Fill(dcaV0ToPrimVertex,cosOPAng);
- fHistPiPPtVSY[isSecd]->Fill(rapL,ptLambda);
- // fHistPiPPtDaughters[isSecd]->Fill(posDaughterPt,negDaughterPt);
- fHistPiPDCADaughters[isSecd]->Fill(massLambda,dcaDaughters);
- fHistPiPDCAVSMass[isSecd]->Fill(massLambda,dcaV0ToPrimVertex);
- fHistPiPDCADaughterPosToPrimVtxVSMass[isSecd]->Fill(massLambda,dcaPosToVertex);
- fHistPiPDecayLengthVsPt[isSecd]->Fill(ptLambda,ctL);
- fHistPiPDecayLengthVsMass[isSecd]->Fill(massLambda,ctL);
-
- //-- secondaries --//
- if(isSecd==1){
- if(fabs(pdgMother)==3112 || fabs(pdgMother)==3114 || fabs(pdgMother)==3222 || fabs(pdgMother)==3224 || fabs(pdgMother)==3214 ){
- fHistPiPMassVSPtSecSigma[1]->Fill(massLambda,ptLambda);
+ //-- Check for Lambda --//
+ if(cutOKLambda && fillLambdaMC && pipdEdx){
+ fHistPiPMonitorCuts[isSecd]->Fill(22);
+ lambdaOK=kTRUE;
+ if( massLambda>1.05 && massLambda<1.25 ){
+ fHistPiPMonitorCuts[isSecd]->Fill(23);
+ fHistPiPMass[isSecd]->Fill(massLambda);
+ fHistPiPMassVSPtMCTruth[isSecd]->Fill(massLambda,ptV0MC);
+ fHistPiPMassVSPt[isSecd]->Fill(massLambda,ptLambda);
+ fHistPiPRadiusXY[isSecd]->Fill(massLambda,opAng);
+ fHistPiPCosPointAng[isSecd]->Fill(dcaV0ToPrimVertex,cosOPAng);
+ fHistPiPPtVSY[isSecd]->Fill(rapL,ptLambda);
+ // fHistPiPPtDaughters[isSecd]->Fill(posDaughterPt,negDaughterPt);
+ fHistPiPDCADaughters[isSecd]->Fill(massLambda,dcaDaughters);
+ fHistPiPDCAVSMass[isSecd]->Fill(massLambda,dcaV0ToPrimVertex);
+ fHistPiPDCADaughterPosToPrimVtxVSMass[isSecd]->Fill(massLambda,dcaPosToVertex);
+ fHistPiPDecayLengthVsPt[isSecd]->Fill(ptLambda,ctL);
+ fHistPiPDecayLengthVsMass[isSecd]->Fill(massLambda,ctL);
+
+ //-- secondaries --//
+ if(isSecd==1){
+ if(fabs(pdgMother)==3112 || fabs(pdgMother)==3114 || fabs(pdgMother)==3222 || fabs(pdgMother)==3224 || fabs(pdgMother)==3214 ){
+ fHistPiPMassVSPtSecSigma[1]->Fill(massLambda,ptLambda);
- }
- // if(pdgMother==3334){
- // fHistPiPDCAtoPrimVtxOmega[1]->Fill(massLambda,dcaV0ToPrimVertex);
- // }
- if(pdgMother==3322){
- fHistPiPCosPointAngXiVsPt->Fill(ptLambda,cosOPAng);
- fHistPiPMassVSPtSecXi[1]->Fill(massLambda,ptLambda);
- fHistPiPMassVSYSecXi[1]->Fill(massLambda,rapL);
- fHistPiPXi0PtVSLambdaPt[1]->Fill(ptLambda,ptXiMother);
- }
- if(pdgMother==3312){
- fHistPiPCosPointAngXiVsPt->Fill(ptLambda,cosOPAng);
- fHistPiPMassVSPtSecXi[1]->Fill(massLambda,ptLambda);
- fHistPiPMassVSYSecXi[1]->Fill(massLambda,rapL);
- fHistPiPXiMinusPtVSLambdaPt[1]->Fill(ptLambda,ptXiMother);
- }
- }
- }
- if(ptLambda>0.4) fHistArmenteros[isSecd]->Fill(alfa,qt);
- fHistV0RadiusZ[isSecd]->Fill(dim2V0Radius,xr[2]);
- fHistV0RadiusXY[isSecd]->Fill(xr[0],xr[1]);
- fHistV0RadiusZVSPt[isSecd]->Fill(ptLambda,dim2V0Radius);
- fHistV0RadiusXYVSY[isSecd]->Fill(rapL,dim2V0Radius);
- fHistDedxSecProt[isSecd]->Fill(posDaughterP,tpcsigPos);
- fHistDedxSecPiMinus[isSecd]->Fill(negDaughterP,tpcsigNeg);
-
- //-- detector values --//
- fHistNclsITSPosL[isSecd]->Fill(nclsITSPos);
- fHistNclsITSNegL[isSecd]->Fill(nclsITSNeg);
- fHistNclsTPCPosL[isSecd]->Fill(nclsTPCPos);
- fHistNclsTPCNegL[isSecd]->Fill(nclsTPCNeg);
- fHistChi2PerNclsITSPosL[isSecd]->Fill(chi2PerClusterITSPos);
- fHistChi2PerNclsITSNegL[isSecd]->Fill(chi2PerClusterITSNeg);
+ }
+ // if(pdgMother==3334){
+ // fHistPiPDCAtoPrimVtxOmega[1]->Fill(massLambda,dcaV0ToPrimVertex);
+ // }
+ if(pdgMother==3322){
+ fHistPiPCosPointAngXiVsPt->Fill(ptLambda,cosOPAng);
+ fHistPiPMassVSPtSecXi[1]->Fill(massLambda,ptLambda);
+ fHistPiPMassVSYSecXi[1]->Fill(massLambda,rapL);
+ fHistPiPXi0PtVSLambdaPt[1]->Fill(ptLambda,ptXiMother);
+ }
+ if(pdgMother==3312){
+ fHistPiPCosPointAngXiVsPt->Fill(ptLambda,cosOPAng);
+ fHistPiPMassVSPtSecXi[1]->Fill(massLambda,ptLambda);
+ fHistPiPMassVSYSecXi[1]->Fill(massLambda,rapL);
+ fHistPiPXiMinusPtVSLambdaPt[1]->Fill(ptLambda,ptXiMother);
+ }
+ }
}
+ if(ptLambda>0.4) fHistArmenteros[isSecd]->Fill(alfa,qt);
+ fHistV0RadiusZ[isSecd]->Fill(dim2V0Radius,xr[2]);
+ fHistV0RadiusXY[isSecd]->Fill(xr[0],xr[1]);
+ fHistV0RadiusZVSPt[isSecd]->Fill(ptLambda,dim2V0Radius);
+ fHistV0RadiusXYVSY[isSecd]->Fill(rapL,dim2V0Radius);
+ fHistDedxSecProt[isSecd]->Fill(posDaughterP,tpcsigPos);
+ fHistDedxSecPiMinus[isSecd]->Fill(negDaughterP,tpcsigNeg);
+
+ //-- detector values --//
+ fHistNclsITSPosL[isSecd]->Fill(nclsITSPos);
+ fHistNclsITSNegL[isSecd]->Fill(nclsITSNeg);
+ fHistNclsTPCPosL[isSecd]->Fill(nclsTPCPos);
+ fHistNclsTPCNegL[isSecd]->Fill(nclsTPCNeg);
+ fHistChi2PerNclsITSPosL[isSecd]->Fill(chi2PerClusterITSPos);
+ fHistChi2PerNclsITSNegL[isSecd]->Fill(chi2PerClusterITSNeg);
+ }
- //-- Check for AntiLambda --//
- if(cutOKALambda && fillALambdaMC && piapdEdx){
- fHistPiAPMonitorCuts[isSecd]->Fill(22);
- alambdaOK=kTRUE;
- if( massALambda>1.05 && massALambda<1.25 ){
- fHistPiAPMonitorCuts[isSecd]->Fill(23);
- fHistPiAPMass[isSecd]->Fill(massALambda);
- fHistPiAPMassVSPtMCTruth[isSecd]->Fill(massALambda,ptV0MC);
- fHistPiAPMassVSPt[isSecd]->Fill(massALambda,ptALambda);
- fHistPiAPRadiusXY[isSecd]->Fill(massALambda,opAng);
- fHistPiAPCosPointAng[isSecd]->Fill(dcaV0ToPrimVertex,cosOPAng);
- fHistPiAPPtVSY[isSecd]->Fill(rapAL,ptALambda);
- // fHistPiAPPtDaughters[isSecd]->Fill(posDaughterPt,negDaughterPt);
- fHistPiAPDCADaughters[isSecd]->Fill(massALambda,dcaDaughters);
- fHistPiAPDCAVSMass[isSecd]->Fill(massALambda,dcaV0ToPrimVertex);
- fHistPiAPDCADaughterPosToPrimVtxVSMass[isSecd]->Fill(massALambda,dcaPosToVertex);
- fHistPiAPDecayLengthVsPt[isSecd]->Fill(ptALambda,ctAL);
- fHistPiAPDecayLengthVsMass[isSecd]->Fill(massALambda,ctAL);
-
- //-- secondaries --//
- if(isSecd==1){
- if(fabs(pdgMother)==3112 || fabs(pdgMother)==3114 || fabs(pdgMother)==3222 || fabs(pdgMother)==3224 || fabs(pdgMother)==3214 ){
- fHistPiAPMassVSPtSecSigma[1]->Fill(massALambda,ptALambda);
- }
- // if(fabs(pdgMother)==3334){
- // fHistPiAPDCAtoPrimVtxOmega[1]->Fill(massALambda,dcaV0ToPrimVertex);
- // }
- if(fabs(pdgMother) == 3322){
- fHistPiAPCosPointAngXiVsPt->Fill(ptALambda,cosOPAng);
- fHistPiAPMassVSPtSecXi[1]->Fill(massALambda,ptALambda);
- fHistPiAPMassVSYSecXi[1]->Fill(massALambda,rapAL);
- fHistPiAPXi0PtVSLambdaPt[1]->Fill(ptALambda,ptXiMother);
- }
- if(pdgMother == -3312){
- fHistPiAPCosPointAngXiVsPt->Fill(ptALambda,cosOPAng);
- fHistPiAPMassVSPtSecXi[1]->Fill(massALambda,ptALambda);
- fHistPiAPMassVSYSecXi[1]->Fill(massALambda,rapAL);
- fHistPiAPXiMinusPtVSLambdaPt[1]->Fill(ptALambda,ptXiMother);
- }
- }
- }
- if(ptALambda>0.4) fHistArmenteros[isSecd]->Fill(alfa,qt);
- fHistDedxSecAProt[isSecd]->Fill(negDaughterP,tpcsigNeg);
- fHistDedxSecPiPlus[isSecd]->Fill(posDaughterP,tpcsigPos);
- fHistV0RadiusZ[isSecd]->Fill(dim2V0Radius,xr[2]);
- fHistV0RadiusXY[isSecd]->Fill(xr[0],xr[1]);
- fHistV0RadiusZVSPt[isSecd]->Fill(ptALambda,dim2V0Radius);
- fHistV0RadiusXYVSY[isSecd]->Fill(rapAL,dim2V0Radius);
-
+ //-- Check for AntiLambda --//
+ if(cutOKALambda && fillALambdaMC && piapdEdx){
+ fHistPiAPMonitorCuts[isSecd]->Fill(22);
+ alambdaOK=kTRUE;
+ if( massALambda>1.05 && massALambda<1.25 ){
+ fHistPiAPMonitorCuts[isSecd]->Fill(23);
+ fHistPiAPMass[isSecd]->Fill(massALambda);
+ fHistPiAPMassVSPtMCTruth[isSecd]->Fill(massALambda,ptV0MC);
+ fHistPiAPMassVSPt[isSecd]->Fill(massALambda,ptALambda);
+ fHistPiAPRadiusXY[isSecd]->Fill(massALambda,opAng);
+ fHistPiAPCosPointAng[isSecd]->Fill(dcaV0ToPrimVertex,cosOPAng);
+ fHistPiAPPtVSY[isSecd]->Fill(rapAL,ptALambda);
+ // fHistPiAPPtDaughters[isSecd]->Fill(posDaughterPt,negDaughterPt);
+ fHistPiAPDCADaughters[isSecd]->Fill(massALambda,dcaDaughters);
+ fHistPiAPDCAVSMass[isSecd]->Fill(massALambda,dcaV0ToPrimVertex);
+ fHistPiAPDCADaughterPosToPrimVtxVSMass[isSecd]->Fill(massALambda,dcaPosToVertex);
+ fHistPiAPDecayLengthVsPt[isSecd]->Fill(ptALambda,ctAL);
+ fHistPiAPDecayLengthVsMass[isSecd]->Fill(massALambda,ctAL);
+
+ //-- secondaries --//
+ if(isSecd==1){
+ if(fabs(pdgMother)==3112 || fabs(pdgMother)==3114 || fabs(pdgMother)==3222 || fabs(pdgMother)==3224 || fabs(pdgMother)==3214 ){
+ fHistPiAPMassVSPtSecSigma[1]->Fill(massALambda,ptALambda);
+ }
+ // if(fabs(pdgMother)==3334){
+ // fHistPiAPDCAtoPrimVtxOmega[1]->Fill(massALambda,dcaV0ToPrimVertex);
+ // }
+ if(fabs(pdgMother) == 3322){
+ fHistPiAPCosPointAngXiVsPt->Fill(ptALambda,cosOPAng);
+ fHistPiAPMassVSPtSecXi[1]->Fill(massALambda,ptALambda);
+ fHistPiAPMassVSYSecXi[1]->Fill(massALambda,rapAL);
+ fHistPiAPXi0PtVSLambdaPt[1]->Fill(ptALambda,ptXiMother);
+ }
+ if(pdgMother == -3312){
+ fHistPiAPCosPointAngXiVsPt->Fill(ptALambda,cosOPAng);
+ fHistPiAPMassVSPtSecXi[1]->Fill(massALambda,ptALambda);
+ fHistPiAPMassVSYSecXi[1]->Fill(massALambda,rapAL);
+ fHistPiAPXiMinusPtVSLambdaPt[1]->Fill(ptALambda,ptXiMother);
+ }
+ }
}
+ if(ptALambda>0.4) fHistArmenteros[isSecd]->Fill(alfa,qt);
+ fHistDedxSecAProt[isSecd]->Fill(negDaughterP,tpcsigNeg);
+ fHistDedxSecPiPlus[isSecd]->Fill(posDaughterP,tpcsigPos);
+ fHistV0RadiusZ[isSecd]->Fill(dim2V0Radius,xr[2]);
+ fHistV0RadiusXY[isSecd]->Fill(xr[0],xr[1]);
+ fHistV0RadiusZVSPt[isSecd]->Fill(ptALambda,dim2V0Radius);
+ fHistV0RadiusXYVSY[isSecd]->Fill(rapAL,dim2V0Radius);
+
+ }
- //-- fill detector histos general --//
- if(lambdaOK || alambdaOK || k0sOK){
- //-- pos --//
- fHistNclsITSPos[isSecd]->Fill(fabs(posDaughterPt),nclsITSPos);
- fHistNclsTPCPos[isSecd]->Fill(nclsTPCFindablePos,nclsTPCPos);
- fHistNCRowsTPCPos[isSecd]->Fill(fabs(posDaughterPt),crossedRowsTPCPos);
- fHistChi2PerNclsITSPos[isSecd]->Fill(fabs(posDaughterPt),chi2PerClusterITSPos);
- //--neg --//
- fHistNclsITSNeg[isSecd]->Fill(fabs(negDaughterPt),nclsITSNeg);
- fHistNclsTPCNeg[isSecd]->Fill(nclsTPCFindableNeg,nclsTPCNeg);
- fHistNCRowsTPCNeg[isSecd]->Fill(fabs(negDaughterPt),crossedRowsTPCNeg);
- fHistChi2PerNclsITSNeg[isSecd]->Fill(fabs(negDaughterPt),chi2PerClusterITSNeg);
-
- fHistNclsITS[isSecd]->Fill(nclsITSPos,nclsITSNeg);
- //if(negDaughterPt >1.0)
- fHistNclsTPC[isSecd]->Fill(crossedRowsTPCNeg,nclsTPCNeg);
-
- fHistPiPiEtaDReco[1]->Fill(posDaughterEta,eta00);
- fHistPiPEtaDReco[1]->Fill(negDaughterEta,eta01);
- }
+ //-- fill detector histos general --//
+ if(lambdaOK || alambdaOK || k0sOK){
+ //-- pos --//
+ fHistNclsITSPos[isSecd]->Fill(fabs(posDaughterPt),nclsITSPos);
+ fHistNclsTPCPos[isSecd]->Fill(nclsTPCFindablePos,nclsTPCPos);
+ fHistNCRowsTPCPos[isSecd]->Fill(fabs(posDaughterPt),crossedRowsTPCPos);
+ fHistChi2PerNclsITSPos[isSecd]->Fill(fabs(posDaughterPt),chi2PerClusterITSPos);
+ //--neg --//
+ fHistNclsITSNeg[isSecd]->Fill(fabs(negDaughterPt),nclsITSNeg);
+ fHistNclsTPCNeg[isSecd]->Fill(nclsTPCFindableNeg,nclsTPCNeg);
+ fHistNCRowsTPCNeg[isSecd]->Fill(fabs(negDaughterPt),crossedRowsTPCNeg);
+ fHistChi2PerNclsITSNeg[isSecd]->Fill(fabs(negDaughterPt),chi2PerClusterITSNeg);
+
+ fHistNclsITS[isSecd]->Fill(nclsITSPos,nclsITSNeg);
+ //if(negDaughterPt >1.0)
+ fHistNclsTPC[isSecd]->Fill(crossedRowsTPCNeg,nclsTPCNeg);
+
+ fHistPiPiEtaDReco[1]->Fill(posDaughterEta,eta00);
+ fHistPiPEtaDReco[1]->Fill(negDaughterEta,eta01);
+ }
- /*
- //-- AliKFParticle --//
- if (negPiKF) delete negPiKF; negPiKF=NULL;
- if (posPiKF) delete posPiKF; posPiKF=NULL;
- if (posPKF) delete posPKF; posPKF=NULL;
- if (negAPKF) delete negAPKF; negAPKF=NULL;
- */
- if(fMCMode && fMCTruthMode) break;// otherwise we would not have ended up here
- }//end V0 reco loop
+ /*
+ //-- AliKFParticle --//
+ if (negPiKF) delete negPiKF; negPiKF=NULL;
+ if (posPiKF) delete posPiKF; posPiKF=NULL;
+ if (posPKF) delete posPKF; posPKF=NULL;
+ if (negAPKF) delete negAPKF; negAPKF=NULL;
+ */
+ if(fMCMode && fMCTruthMode) break;// otherwise we would not have ended up here
+ }//end V0 reco loop
}
//________________________________________________________________________
Int_t AliAnalysisTaskV0ForRAA::CalculateCentralityBin(){
- //find centrality bin for centrality selection
-
- if (fUseCentrality == 0) return -1;
-
- AliCentrality *esdCentrality = fESD->GetCentrality();
-
- Float_t centralityVZERO = esdCentrality->GetCentralityPercentile("V0M");
- Float_t centralitySPD = esdCentrality->GetCentralityPercentile("CL1");
-
- Int_t centralityVZEROBin = -1;
- Int_t centralitySPDBin = -1;
-
- //-- SPD centrality --//
- if ( fUseCentrality == 2 ){
- if ( centralitySPD >= 0. && centralitySPD < 5.) centralitySPDBin = 0;
- else if ( centralitySPD >= 5. && centralitySPD < 10.) centralitySPDBin = 5;
- else if ( centralitySPD >= 10. && centralitySPD < 20.) centralitySPDBin = 10;
- else if ( centralitySPD >= 20. && centralitySPD < 30.) centralitySPDBin = 20;
- else if ( centralitySPD >= 30. && centralitySPD < 40.) centralitySPDBin = 30;
- else if ( centralitySPD >= 40. && centralitySPD < 50.) centralitySPDBin = 40;
- else if ( centralitySPD >= 50. && centralitySPD < 60.) centralitySPDBin = 50;
- else if ( centralitySPD >= 60. && centralitySPD < 70.) centralitySPDBin = 60;
- else if ( centralitySPD >= 70. && centralitySPD < 80.) centralitySPDBin = 70;
- else if ( centralitySPD >= 80. && centralitySPD < 90.) centralitySPDBin = 80;
- else if ( centralitySPD >= 90. && centralitySPD < 99.) centralitySPDBin = 90;
- else if ( centralitySPD >= 99. ) centralitySPDBin = 100;
- else if ( fabs(centralitySPD)< 0.0001 ) centralitySPDBin = 100;
- return centralitySPDBin;
- }
- //-- V0 centrality --//
- if ( fUseCentrality == 1 ){
- if ( centralityVZERO > 0. && centralityVZERO < 5.) centralityVZEROBin = 0;
- else if ( centralityVZERO >= 5. && centralityVZERO < 10.) centralityVZEROBin = 5;
- else if ( centralityVZERO >= 10. && centralityVZERO < 20.) centralityVZEROBin = 10;
- else if ( centralityVZERO >= 20. && centralityVZERO < 30.) centralityVZEROBin = 20;
- else if ( centralityVZERO >= 30. && centralityVZERO < 40.) centralityVZEROBin = 30;
- else if ( centralityVZERO >= 40. && centralityVZERO < 50.) centralityVZEROBin = 40;
- else if ( centralityVZERO >= 50. && centralityVZERO < 60.) centralityVZEROBin = 50;
- else if ( centralityVZERO >= 60. && centralityVZERO < 70.) centralityVZEROBin = 60;
- else if ( centralityVZERO >= 70. && centralityVZERO < 80.) centralityVZEROBin = 70;
- else if ( centralityVZERO >= 80. && centralityVZERO < 90.) centralityVZEROBin = 80;
- else if ( centralityVZERO >= 90. && centralityVZERO < 99.) centralityVZEROBin = 90;
- else if ( centralityVZERO >= 99. ) centralityVZEROBin = 100;
- else if ( fabs(centralityVZERO)< 0.0001 ) centralityVZEROBin = 100;
- return centralityVZEROBin;
- }
- return -1;
+ //find centrality bin for centrality selection
+
+ if (fUseCentrality == 0) return -1;
+
+ AliCentrality *esdCentrality = fESD->GetCentrality();
+
+ Float_t centralityVZERO = esdCentrality->GetCentralityPercentile("V0M");
+ Float_t centralitySPD = esdCentrality->GetCentralityPercentile("CL1");
+
+ Int_t centralityVZEROBin = -1;
+ Int_t centralitySPDBin = -1;
+
+ //-- SPD centrality --//
+ if ( fUseCentrality == 2 ){
+ if ( centralitySPD >= 0. && centralitySPD < 5.) centralitySPDBin = 0;
+ else if ( centralitySPD >= 5. && centralitySPD < 10.) centralitySPDBin = 5;
+ else if ( centralitySPD >= 10. && centralitySPD < 20.) centralitySPDBin = 10;
+ else if ( centralitySPD >= 20. && centralitySPD < 30.) centralitySPDBin = 20;
+ else if ( centralitySPD >= 30. && centralitySPD < 40.) centralitySPDBin = 30;
+ else if ( centralitySPD >= 40. && centralitySPD < 50.) centralitySPDBin = 40;
+ else if ( centralitySPD >= 50. && centralitySPD < 60.) centralitySPDBin = 50;
+ else if ( centralitySPD >= 60. && centralitySPD < 70.) centralitySPDBin = 60;
+ else if ( centralitySPD >= 70. && centralitySPD < 80.) centralitySPDBin = 70;
+ else if ( centralitySPD >= 80. && centralitySPD < 90.) centralitySPDBin = 80;
+ else if ( centralitySPD >= 90. && centralitySPD < 99.) centralitySPDBin = 90;
+ else if ( centralitySPD >= 99. ) centralitySPDBin = 100;
+ else if ( fabs(centralitySPD)< 0.0001 ) centralitySPDBin = 100;
+ return centralitySPDBin;
+ }
+ //-- V0 centrality --//
+ if ( fUseCentrality == 1 ){
+ if ( centralityVZERO > 0. && centralityVZERO < 5.) centralityVZEROBin = 0;
+ else if ( centralityVZERO >= 5. && centralityVZERO < 10.) centralityVZEROBin = 5;
+ else if ( centralityVZERO >= 10. && centralityVZERO < 20.) centralityVZEROBin = 10;
+ else if ( centralityVZERO >= 20. && centralityVZERO < 30.) centralityVZEROBin = 20;
+ else if ( centralityVZERO >= 30. && centralityVZERO < 40.) centralityVZEROBin = 30;
+ else if ( centralityVZERO >= 40. && centralityVZERO < 50.) centralityVZEROBin = 40;
+ else if ( centralityVZERO >= 50. && centralityVZERO < 60.) centralityVZEROBin = 50;
+ else if ( centralityVZERO >= 60. && centralityVZERO < 70.) centralityVZEROBin = 60;
+ else if ( centralityVZERO >= 70. && centralityVZERO < 80.) centralityVZEROBin = 70;
+ else if ( centralityVZERO >= 80. && centralityVZERO < 90.) centralityVZEROBin = 80;
+ else if ( centralityVZERO >= 90. && centralityVZERO < 99.) centralityVZEROBin = 90;
+ else if ( centralityVZERO >= 99. ) centralityVZEROBin = 100;
+ else if ( fabs(centralityVZERO)< 0.0001 ) centralityVZEROBin = 100;
+ return centralityVZEROBin;
+ }
+ return -1;
}
//________________________________________________________________________
Bool_t AliAnalysisTaskV0ForRAA::GetMCTruthPartner(AliESDtrack *pos,AliESDtrack *neg,Int_t id0,Int_t id1){
- //-- get daughter label and check it --//
- Int_t labelP = pos->GetLabel();
- Int_t labelN = neg->GetLabel();
- if(labelP<0 || labelN<0){
- return kFALSE;
- }
- if (labelN==labelP) return kFALSE;
+ //-- get daughter label and check it --//
+ Int_t labelP = pos->GetLabel();
+ Int_t labelN = neg->GetLabel();
+ if(labelP<0 || labelN<0){
+ return kFALSE;
+ }
+ if (labelN==labelP) return kFALSE;
- if(fMCTruthMode){
- if ((labelP!=id0) && (labelP!=id1)) return kFALSE;
- if ((labelN!=id0) && (labelN!=id1)) return kFALSE;
- }
+ if(fMCTruthMode){
+ if ((labelP!=id0) && (labelP!=id1)) return kFALSE;
+ if ((labelN!=id0) && (labelN!=id1)) return kFALSE;
+ }
- return kTRUE;
+ return kTRUE;
}